amns_data.a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.a_σ

error of amns_data.a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.code.commit

Unique commit reference of software

  • Data Type: STR_0D

amns_data.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

amns_data.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

amns_data.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

amns_data.code.library[:].name

Name of software

  • Data Type: STR_0D

amns_data.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

amns_data.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

amns_data.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

amns_data.code.name

Name of software generating IDS

  • Data Type: STR_0D

amns_data.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["amns_data.time"]

amns_data.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

amns_data.code.repository

URL of software repository

  • Data Type: STR_0D

amns_data.code.version

Unique version (tag) of software

  • Data Type: STR_0D

amns_data.coordinate_system[:].coordinate[:].extrapolation_type

Extrapolation strategy when leaving the domain. The first value of the vector describes the behaviour at lower bound, the second describes the at upper bound. Possible values: 0=none, report error; 1=boundary value; 2=linear extrapolation

  • Data Type: INT_1D
  • Coordinates: ["1...2"]

amns_data.coordinate_system[:].coordinate[:].interpolation_type

Interpolation strategy in this coordinate direction. Integer flag: 0=discrete (no interpolation); 1=linear; ...

  • Data Type: INT_0D

amns_data.coordinate_system[:].coordinate[:].label

Description of coordinate (e.g. "Electron temperature")

  • Data Type: STR_0D

amns_data.coordinate_system[:].coordinate[:].spacing

Flag for specific coordinate spacing (for optimization purposes). Integer flag: 0=undefined; 1=uniform; ...

  • Data Type: INT_0D

amns_data.coordinate_system[:].coordinate[:].transformation

Coordinate transformation applied to coordinate values stored in coord. Integer flag: 0=none; 1=log10; 2=ln

  • Data Type: INT_0D

amns_data.coordinate_system[:].coordinate[:].units

Units of coordinate (e.g. eV)

  • Data Type: STR_0D

amns_data.coordinate_system[:].coordinate[:].value_labels

String description of discrete coordinate values (if interpolation_type=0). E.g., for spectroscopic lines, the spectroscopic description of the transition.

  • Data Type: STR_1D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.coordinate_system[:].coordinate[:].values

Coordinate values

  • Units: units given by coordinate_system(:)/coordinate(:)/units
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

amns_data.coordinate_system[:].coordinate[:].values_σ

error of amnsdata.coordinatesystem[:].coordinate[:].values

  • Units: units given by coordinate_system(:)/coordinate(:)/units
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

amns_data.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

amns_data.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

amns_data.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

amns_data.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

amns_data.ids_properties.occurrence

N/A

  • Data Type: INT_0D

amns_data.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

amns_data.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

amns_data.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

amns_data.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

amns_data.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

amns_data.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

amns_data.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

amns_data.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

amns_data.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

amns_data.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

amns_data.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

amns_data.process[:].charge_state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

amns_data.process[:].charge_state[:].table_0d

0D table describing the process data

  • Units: units given by process(:)/results_units
  • Data Type: FLT_0D

amns_data.process[:].charge_state[:].table_0d_σ

error of amnsdata.process[:].chargestate[:].table_0d

  • Units: units given by process(:)/results_units
  • Data Type: FLT_0D

amns_data.process[:].charge_state[:].table_1d

1D table describing the process data

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_1D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_1d_σ

error of amnsdata.process[:].chargestate[:].table_1d

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_1D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_2d

2D table describing the process data

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_2D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_2d_σ

error of amnsdata.process[:].chargestate[:].table_2d

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_2D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_3d

3D table describing the process data

  • Units: units given by process(:)/results_units
  • Data Type: FLT_3D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_3d_σ

error of amnsdata.process[:].chargestate[:].table_3d

  • Units: units given by process(:)/results_units
  • Data Type: FLT_3D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_4d

4D table describing the process data

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_4D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_4d_σ

error of amnsdata.process[:].chargestate[:].table_4d

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_4D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_5d

5D table describing the process data

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_5D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_5d_σ

error of amnsdata.process[:].chargestate[:].table_5d

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_5D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_6d

6D table describing the process data

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_6D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].table_6d_σ

error of amnsdata.process[:].chargestate[:].table_6d

  • Units: units given by process(i1)/results_units
  • Data Type: FLT_6D
  • Coordinates: ["amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values", "amns_data.coordinate_system[:].coordinate[:].values"]

amns_data.process[:].charge_state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].charge_state[:].z_max_σ

error of amnsdata.process[:].chargestate[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].charge_state[:].z_min

Minimum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].charge_state[:].z_min_σ

error of amnsdata.process[:].chargestate[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].citation

Reference to publication(s)

  • Data Type: STR_0D

amns_data.process[:].coordinate_index

Index in tables_coord, specifying what coordinate systems to use for this process (valid for all tables)

  • Data Type: INT_0D

amns_data.process[:].label

String identifying the process (e.g. EI, RC, ...)

  • Data Type: STR_0D

amns_data.process[:].products[:].charge

Charge number of the participant

  • Data Type: FLT_0D

amns_data.process[:].products[:].charge_σ

error of amns_data.process[:].products[:].charge

  • Data Type: FLT_0D

amns_data.process[:].products[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].products[:].element[:].a_σ

error of amns_data.process[:].products[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].products[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

amns_data.process[:].products[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].products[:].element[:].z_n_σ

error of amnsdata.process[:].products[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].products[:].label

String identifying reaction participant (e.g. "D", "e", "W", "CD4", "photon", "n")

  • Data Type: STR_0D

amns_data.process[:].products[:].mass

Mass of the participant

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].products[:].mass_σ

error of amns_data.process[:].products[:].mass

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].products[:].metastable

An array identifying the metastable; if zero-length, then not a metastable; if of length 1, then the value indicates the electronic level for the metastable (mostly used for atoms/ions); if of length 2, then the 1st would indicate the electronic level and the second the vibrational level for the metastable (mostly used for molecules and molecular ions); if of length 3, then the 1st would indicate the electronic level, the second the vibrational level and the third the rotational level for the metastable (mostly used for molecules and molecular ions)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

amns_data.process[:].products[:].metastable_label

Label identifying in text form the metastable

  • Data Type: STR_0D

amns_data.process[:].products[:].multiplicity

Multiplicity in the reaction

  • Data Type: FLT_0D

amns_data.process[:].products[:].multiplicity_σ

error of amns_data.process[:].products[:].multiplicity

  • Data Type: FLT_0D

amns_data.process[:].products[:].relative_charge

This is a flag indicating that charges are absolute (if set to 0), relative (if 1) or irrelevant (-1); relative would be used to categorize the ionization reactions from i to i+1 for all charge states; in the case of bundles, the +1 relative indicates the next bundle

  • Data Type: INT_0D

amns_data.process[:].products[:].role.description

Verbose description

  • Data Type: STR_0D

amns_data.process[:].products[:].role.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

amns_data.process[:].products[:].role.name

Short string identifier

  • Data Type: STR_0D

amns_data.process[:].provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

amns_data.process[:].reactants[:].charge

Charge number of the participant

  • Data Type: FLT_0D

amns_data.process[:].reactants[:].charge_σ

error of amns_data.process[:].reactants[:].charge

  • Data Type: FLT_0D

amns_data.process[:].reactants[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].reactants[:].element[:].a_σ

error of amns_data.process[:].reactants[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].reactants[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

amns_data.process[:].reactants[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].reactants[:].element[:].z_n_σ

error of amnsdata.process[:].reactants[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.process[:].reactants[:].label

String identifying reaction participant (e.g. "D", "e", "W", "CD4", "photon", "n")

  • Data Type: STR_0D

amns_data.process[:].reactants[:].mass

Mass of the participant

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].reactants[:].mass_σ

error of amns_data.process[:].reactants[:].mass

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

amns_data.process[:].reactants[:].metastable

An array identifying the metastable; if zero-length, then not a metastable; if of length 1, then the value indicates the electronic level for the metastable (mostly used for atoms/ions); if of length 2, then the 1st would indicate the electronic level and the second the vibrational level for the metastable (mostly used for molecules and molecular ions); if of length 3, then the 1st would indicate the electronic level, the second the vibrational level and the third the rotational level for the metastable (mostly used for molecules and molecular ions)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

amns_data.process[:].reactants[:].metastable_label

Label identifying in text form the metastable

  • Data Type: STR_0D

amns_data.process[:].reactants[:].multiplicity

Multiplicity in the reaction

  • Data Type: FLT_0D

amns_data.process[:].reactants[:].multiplicity_σ

error of amns_data.process[:].reactants[:].multiplicity

  • Data Type: FLT_0D

amns_data.process[:].reactants[:].relative_charge

This is a flag indicating that charges are absolute (if set to 0), relative (if 1) or irrelevant (-1); relative would be used to categorize the ionization reactions from i to i+1 for all charge states; in the case of bundles, the +1 relative indicates the next bundle

  • Data Type: INT_0D

amns_data.process[:].reactants[:].role.description

Verbose description

  • Data Type: STR_0D

amns_data.process[:].reactants[:].role.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

amns_data.process[:].reactants[:].role.name

Short string identifier

  • Data Type: STR_0D

amns_data.process[:].result_label

Description of the process result (rate, cross section, sputtering yield, ...)

  • Data Type: STR_0D

amns_data.process[:].result_transformation

Transformation of the process result. Integer flag: 0=no transformation; 1=10^; 2=exp()

  • Data Type: INT_0D

amns_data.process[:].result_units

Units of the process result

  • Data Type: STR_0D

amns_data.process[:].source

Filename or subroutine name used to provide this data

  • Data Type: STR_0D

amns_data.process[:].table_dimension

Table dimensionality of the process (1 to 6), valid for all charge states. Indicates which of the tables is filled (below the charge_state node)

  • Data Type: INT_0D

amns_data.release[:].data_entry[:].description

Description of this data entry

  • Data Type: STR_0D

amns_data.release[:].data_entry[:].run

Which run number is the active run number for this version

  • Data Type: INT_0D

amns_data.release[:].data_entry[:].shot

Shot number = Mass*1000+Nuclear_charge

  • Data Type: INT_0D

amns_data.release[:].date

Date of this release

  • Data Type: STR_0D

amns_data.release[:].description

Description of this release

  • Data Type: STR_0D

amns_data.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

amns_data.z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

amns_data.z_n_σ

error of amnsdata.zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

b_field_non_axisymmetric.code.commit

Unique commit reference of software

  • Data Type: STR_0D

b_field_non_axisymmetric.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

b_field_non_axisymmetric.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

b_field_non_axisymmetric.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

b_field_non_axisymmetric.code.library[:].name

Name of software

  • Data Type: STR_0D

b_field_non_axisymmetric.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

b_field_non_axisymmetric.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

b_field_non_axisymmetric.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

b_field_non_axisymmetric.code.name

Name of software generating IDS

  • Data Type: STR_0D

b_field_non_axisymmetric.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["b_field_non_axisymmetric.time"]

b_field_non_axisymmetric.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

b_field_non_axisymmetric.code.repository

URL of software repository

  • Data Type: STR_0D

b_field_non_axisymmetric.code.version

Unique version (tag) of software

  • Data Type: STR_0D

b_field_non_axisymmetric.configuration

In case of a constant (single time slice) b_field description, name of the corresponding scenario/configuration

  • Data Type: STR_0D

b_field_non_axisymmetric.control_surface_names

List of control surface names, refers to the ../timeslice/controlsurface index

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

b_field_non_axisymmetric.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.occurrence

N/A

  • Data Type: INT_0D

b_field_non_axisymmetric.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

b_field_non_axisymmetric.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

b_field_non_axisymmetric.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

b_field_non_axisymmetric.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_normal

Normal component of the vacuum error magnetic field on the various surface points

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_normal_σ

error of bfieldnonaxisymmetric.timeslice[:].controlsurface[:].bfield_normal

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_normal_fourier

Fourier coefficients of the normal component of the vacuum error magnetic field on the various surface points

  • Units: T
  • Data Type: CPX_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].n_tor"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_r

R component of the vacuum error magnetic field on the various surface points

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_r_σ

error of bfieldnonaxisymmetric.timeslice[:].controlsurface[:].bfield_r

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_tor

Toroidal component of the vacuum error magnetic field on the various surface points

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_tor_σ

error of bfieldnonaxisymmetric.timeslice[:].controlsurface[:].bfield_tor

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_z

Z component of the vacuum error magnetic field on the various surface points

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].b_field_z_σ

error of bfieldnonaxisymmetric.timeslice[:].controlsurface[:].bfield_z

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r", "b_field_non_axisymmetric.time_slice[:].control_surface[:].phi"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].n_tor

Toroidal mode number

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].normal_vector.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].normal_vector.r_σ

error of bfieldnonaxisymmetric.timeslice[:].controlsurface[:].normalvector.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].normal_vector.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].normal_vector.r"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].normal_vector.z_σ

error of bfieldnonaxisymmetric.timeslice[:].controlsurface[:].normalvector.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].normal_vector.r"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r_σ

error of bfieldnonaxisymmetric.timeslice[:].control_surface[:].outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.z_σ

error of bfieldnonaxisymmetric.timeslice[:].control_surface[:].outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].control_surface[:].outline.r"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].phi

Toroidal angle array, on which the Fourier decomposition is carried out

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].control_surface[:].phi_σ

error of bfieldnonaxisymmetric.timeslice[:].control_surface[:].phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].field_map.b_field_r

R component of the vacuum error magnetic field

  • Units: T
  • Data Type: FLT_3D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.phi", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].field_map.b_field_r_σ

error of bfieldnonaxisymmetric.timeslice[:].fieldmap.bfield_r

  • Units: T
  • Data Type: FLT_3D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.phi", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].field_map.b_field_tor

Toroidal component of the vacuum error magnetic field

  • Units: T
  • Data Type: FLT_3D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.phi", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].field_map.b_field_tor_σ

error of bfieldnonaxisymmetric.timeslice[:].fieldmap.bfield_tor

  • Units: T
  • Data Type: FLT_3D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.phi", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].field_map.b_field_z

Z component of the vacuum error magnetic field

  • Units: T
  • Data Type: FLT_3D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.phi", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].field_map.b_field_z_σ

error of bfieldnonaxisymmetric.timeslice[:].fieldmap.bfield_z

  • Units: T
  • Data Type: FLT_3D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.phi", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].field_map.grid.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r"]

b_field_non_axisymmetric.time_slice[:].field_map.grid.phi_σ

error of bfieldnonaxisymmetric.timeslice[:].field_map.grid.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r"]

b_field_non_axisymmetric.time_slice[:].field_map.grid.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].field_map.grid.r_σ

error of bfieldnonaxisymmetric.timeslice[:].field_map.grid.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

b_field_non_axisymmetric.time_slice[:].field_map.grid.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r"]

b_field_non_axisymmetric.time_slice[:].field_map.grid.z_σ

error of bfieldnonaxisymmetric.timeslice[:].field_map.grid.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r"]

b_field_non_axisymmetric.time_slice[:].field_map.ripple_amplitude

Value of (bfieldmax-bfieldmin)/(bfieldmax+bfieldmin), where bfieldmax resp. bfieldmin) is the maximum (resp. minimum) of the magnetic field amplitude over a 2pi rotation in toroidal angle phi at a given R, Z position.

  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].field_map.ripple_amplitude_σ

error of bfieldnonaxisymmetric.timeslice[:].fieldmap.rippleamplitude

  • Data Type: FLT_2D
  • Coordinates: ["b_field_non_axisymmetric.time_slice[:].field_map.grid.r", "b_field_non_axisymmetric.time_slice[:].field_map.grid.z"]

b_field_non_axisymmetric.time_slice[:].time

Time

  • Units: s
  • Data Type: FLT_0D

balance_of_plant.Q_plant

Electricity gain of the plant (ratio of net electric / plant electricity during operation)

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.Q_plant_σ

error of balanceofplant.Q_plant

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.code.commit

Unique commit reference of software

  • Data Type: STR_0D

balance_of_plant.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

balance_of_plant.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

balance_of_plant.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

balance_of_plant.code.library[:].name

Name of software

  • Data Type: STR_0D

balance_of_plant.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

balance_of_plant.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

balance_of_plant.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

balance_of_plant.code.name

Name of software generating IDS

  • Data Type: STR_0D

balance_of_plant.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["equilibrium.time"]

balance_of_plant.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

balance_of_plant.code.repository

URL of software repository

  • Data Type: STR_0D

balance_of_plant.code.version

Unique version (tag) of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

balance_of_plant.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

balance_of_plant.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

balance_of_plant.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

balance_of_plant.ids_properties.occurrence

N/A

  • Data Type: INT_0D

balance_of_plant.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

balance_of_plant.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

balance_of_plant.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

balance_of_plant.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

balance_of_plant.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

balance_of_plant.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

balance_of_plant.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

balance_of_plant.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

balance_of_plant.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

balance_of_plant.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

balance_of_plant.power_electric_net

Net electric power

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_electric_net_σ

error of balanceofplant.powerelectricnet

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_electric_plant_operation.system[:].index

Index of the system, used to generate functions

  • Data Type: INT_0D

balance_of_plant.power_electric_plant_operation.system[:].name

Name of the system

  • Data Type: STR_0D

balance_of_plant.power_electric_plant_operation.system[:].power

Electrical power used to operate the system

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_electric_plant_operation.system[:].power_σ

error of balanceofplant.powerelectricplant_operation.system[:].power

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_electric_plant_operation.system[:].subsystem[:].index

Index of the system, used to generate functions

  • Data Type: INT_0D

balance_of_plant.power_electric_plant_operation.system[:].subsystem[:].name

Name of the system

  • Data Type: STR_0D

balance_of_plant.power_electric_plant_operation.system[:].subsystem[:].power

Electrical power used to operate the system

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_electric_plant_operation.system[:].subsystem[:].power_σ

error of balanceofplant.powerelectricplant_operation.system[:].subsystem[:].power

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_electric_plant_operation.total_power

Total

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_electric_plant_operation.total_power_σ

error of balanceofplant.powerelectricplantoperation.totalpower

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.generator_conversion_efficiency

Conversion efficiency of thermal to electric power of the steam cycle

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.generator_conversion_efficiency_σ

error of balanceofplant.powerplant.generatorconversion_efficiency

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.heat_load.breeder

The heat flow towards the breeder.

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.heat_load.breeder_σ

error of balanceofplant.powerplant.heatload.breeder

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.heat_load.divertor

The heat flow towards the divertor

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.heat_load.divertor_σ

error of balanceofplant.powerplant.heatload.divertor

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.heat_load.wall

The heat flow towards the wall.

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.heat_load.wall_σ

error of balanceofplant.powerplant.heatload.wall

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.power_cycle_type

Type of primary power cycle, :brayton = gas, :rankine = steam

  • Data Type: STR_0D

balance_of_plant.power_plant.power_electric_generated

The net electric power produced by the thermal plant, equal tot the power produced by turbines LESS the power consumed by pumps and compressors

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.power_electric_generated_σ

error of balanceofplant.powerplant.powerelectric_generated

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].index

Index of the system, used to generate functions

  • Data Type: INT_0D

balance_of_plant.power_plant.system[:].component[:].name

Name of the component

  • Data Type: STR_0D

balance_of_plant.power_plant.system[:].component[:].port[:].massflow

Mass Flow Rate of the fluid

  • Units: kg/s
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].massflow_σ

error of balanceofplant.power_plant.system[:].component[:].port[:].massflow

  • Units: kg/s
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].mechanicalPower

Shaft power associated with the component, (+) = into the system, (-) = out of the system

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].mechanicalPower_σ

error of balanceofplant.power_plant.system[:].component[:].port[:].mechanicalPower

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].name

Name of the port

  • Data Type: STR_0D

balance_of_plant.power_plant.system[:].component[:].port[:].pressure

Fluid pressure

  • Units: Bar
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].pressure_σ

error of balanceofplant.power_plant.system[:].component[:].port[:].pressure

  • Units: Bar
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].temperature

Fluid Temperature

  • Units: C
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].temperature_σ

error of balanceofplant.power_plant.system[:].component[:].port[:].temperature

  • Units: C
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].thermalPower

Heattransfer rate of the component, (+) = into the system, (-) = out of the system

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].component[:].port[:].thermalPower_σ

error of balanceofplant.power_plant.system[:].component[:].port[:].thermalPower

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.system[:].index

Index of the system, used to generate functions

  • Data Type: INT_0D

balance_of_plant.power_plant.system[:].name

Name of the system

  • Data Type: STR_0D

balance_of_plant.power_plant.total_heat_rejected

The total heat flow being rejected from the thermal plant

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.total_heat_rejected_σ

error of balanceofplant.powerplant.totalheat_rejected

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.total_heat_supplied

The total heat flow being supplied to the thermal Plant (Fusion thermal power).

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.power_plant.total_heat_supplied_σ

error of balanceofplant.powerplant.totalheat_supplied

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.thermal_efficiency_cycle

The fractional thermal effiency of the power cycle. Calculated as 1-Qout/Qin

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.thermal_efficiency_cycle_σ

error of balanceofplant.thermalefficiencycycle

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.thermal_efficiency_plant

The fractional thermal effiency of the entire BOP thermal plant, inlcudes all of the individual cycles. Calculated as 1-Qout/Qin

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.thermal_efficiency_plant_σ

error of balanceofplant.thermalefficiencyplant

  • Data Type: FLT_1D
  • Coordinates: ["balance_of_plant.time"]

balance_of_plant.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

barometry.code.commit

Unique commit reference of software

  • Data Type: STR_0D

barometry.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

barometry.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

barometry.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

barometry.code.library[:].name

Name of software

  • Data Type: STR_0D

barometry.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

barometry.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

barometry.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

barometry.code.name

Name of software generating IDS

  • Data Type: STR_0D

barometry.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["barometry.time"]

barometry.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

barometry.code.repository

URL of software repository

  • Data Type: STR_0D

barometry.code.version

Unique version (tag) of software

  • Data Type: STR_0D

barometry.gauge[:].calibration_coefficient

Coefficient used for converting raw signal into absolute pressure

  • Units: Pa
  • Data Type: FLT_0D

barometry.gauge[:].calibration_coefficient_σ

error of barometry.gauge[:].calibration_coefficient

  • Units: Pa
  • Data Type: FLT_0D

barometry.gauge[:].name

Name of the gauge

  • Data Type: STR_0D

barometry.gauge[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

barometry.gauge[:].position.phi_σ

error of barometry.gauge[:].position.phi

  • Units: rad
  • Data Type: FLT_0D

barometry.gauge[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

barometry.gauge[:].position.r_σ

error of barometry.gauge[:].position.r

  • Units: m
  • Data Type: FLT_0D

barometry.gauge[:].position.z

Height

  • Units: m
  • Data Type: FLT_0D

barometry.gauge[:].position.z_σ

error of barometry.gauge[:].position.z

  • Units: m
  • Data Type: FLT_0D

barometry.gauge[:].pressure.data

Data

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["barometry.gauge[:].pressure.time"]

barometry.gauge[:].pressure.data_σ

error of barometry.gauge[:].pressure.data

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["barometry.gauge[:].pressure.time"]

barometry.gauge[:].pressure.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

barometry.gauge[:].type.description

Verbose description

  • Data Type: STR_0D

barometry.gauge[:].type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

barometry.gauge[:].type.name

Short string identifier

  • Data Type: STR_0D

barometry.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

barometry.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

barometry.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

barometry.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

barometry.ids_properties.occurrence

N/A

  • Data Type: INT_0D

barometry.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

barometry.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

barometry.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

barometry.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

barometry.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

barometry.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

barometry.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

barometry.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

barometry.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

barometry.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

barometry.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

barometry.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

barometry.latency_σ

error of barometry.latency

  • Units: s
  • Data Type: FLT_0D

barometry.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

blanket.code.commit

Unique commit reference of software

  • Data Type: STR_0D

blanket.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

blanket.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

blanket.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

blanket.code.library[:].name

Name of software

  • Data Type: STR_0D

blanket.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

blanket.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

blanket.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

blanket.code.name

Name of software generating IDS

  • Data Type: STR_0D

blanket.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["equilibrium.time"]

blanket.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

blanket.code.repository

URL of software repository

  • Data Type: STR_0D

blanket.code.version

Unique version (tag) of software

  • Data Type: STR_0D

blanket.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

blanket.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

blanket.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

blanket.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

blanket.ids_properties.occurrence

N/A

  • Data Type: INT_0D

blanket.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

blanket.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

blanket.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

blanket.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

blanket.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

blanket.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

blanket.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

blanket.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

blanket.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

blanket.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

blanket.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

blanket.module[:].layer[:].material

Material of the layer

  • Data Type: STR_0D

blanket.module[:].layer[:].midplane_thickness

Thickness of layer evaluated at the midplane

  • Units: m
  • Data Type: FLT_0D

blanket.module[:].layer[:].midplane_thickness_σ

error of blanket.module[:].layer[:].midplane_thickness

  • Units: m
  • Data Type: FLT_0D

blanket.module[:].layer[:].name

Name of the blanket layer

  • Data Type: STR_0D

blanket.module[:].midplane_r

Radial distance from the first wall evaluated at the midplane (0.0 at the first wall)

  • Units: m
  • Data Type: FLT_1D

blanket.module[:].midplane_r_σ

error of blanket.module[:].midplane_r

  • Units: m
  • Data Type: FLT_1D

blanket.module[:].name

Name of the blanket module

  • Data Type: STR_0D

blanket.module[:].time_slice[:].midplane_volumetric_heating

Volumetric heating evaluated at the midplane

  • Units: W/m^3
  • Data Type: FLT_1D
  • Coordinates: ["blanket.module[:].midplane_r"]

blanket.module[:].time_slice[:].midplane_volumetric_heating_σ

error of blanket.module[:].timeslice[:].midplanevolumetric_heating

  • Units: W/m^3
  • Data Type: FLT_1D
  • Coordinates: ["blanket.module[:].midplane_r"]

blanket.module[:].time_slice[:].peak_escape_flux

Maximum neutron flux escaping from the back of the blanket module

  • Units: W/m^2
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].peak_escape_flux_σ

error of blanket.module[:].timeslice[:].peakescape_flux

  • Units: W/m^2
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].peak_wall_flux

Maximum neutron flux at the first wall

  • Units: W/m^2
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].peak_wall_flux_σ

error of blanket.module[:].timeslice[:].peakwall_flux

  • Units: W/m^2
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_incident_neutrons

Total incident neutron power on the blanket module

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_incident_neutrons_σ

error of blanket.module[:].timeslice[:].powerincident_neutrons

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_incident_radiated

Total incident radiative power on the blanket module

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_incident_radiated_σ

error of blanket.module[:].timeslice[:].powerincident_radiated

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_thermal_extracted

Total thermal power that is extracted from the blanket module

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_thermal_extracted_σ

error of blanket.module[:].timeslice[:].powerthermal_extracted

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_thermal_neutrons

Total neutron power (deposited + generated) in the blanket module

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_thermal_neutrons_σ

error of blanket.module[:].timeslice[:].powerthermal_neutrons

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_thermal_radiated

Total radiated power (incident - reflected) in the blanket module

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].power_thermal_radiated_σ

error of blanket.module[:].timeslice[:].powerthermal_radiated

  • Units: W
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].time

Time

  • Units: s
  • Data Type: FLT_0D

blanket.module[:].time_slice[:].tritium_breeding_ratio

Number of tritium atoms for each incident neutron (TBR)

  • Data Type: FLT_0D

blanket.module[:].time_slice[:].tritium_breeding_ratio_σ

error of blanket.module[:].timeslice[:].tritiumbreeding_ratio

  • Data Type: FLT_0D

blanket.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

blanket.tritium_breeding_ratio

Number of tritium atoms created for each fusion neutron (TBR)

  • Data Type: FLT_1D
  • Coordinates: ["blanket.time"]

blanket.tritium_breeding_ratio_σ

error of blanket.tritiumbreedingratio

  • Data Type: FLT_1D
  • Coordinates: ["blanket.time"]

bolometer.channel[:].aperture[:].centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].centre.phi_σ

error of bolometer.channel[:].aperture[:].centre.phi

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].centre.r_σ

error of bolometer.channel[:].aperture[:].centre.r

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].centre.z

Height

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].centre.z_σ

error of bolometer.channel[:].aperture[:].centre.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

bolometer.channel[:].aperture[:].outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.channel[:].aperture[:].outline.x1_σ

error of bolometer.channel[:].aperture[:].outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.channel[:].aperture[:].outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.channel[:].aperture[:].outline.x1"]

bolometer.channel[:].aperture[:].outline.x2_σ

error of bolometer.channel[:].aperture[:].outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.channel[:].aperture[:].outline.x1"]

bolometer.channel[:].aperture[:].radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].radius_σ

error of bolometer.channel[:].aperture[:].radius

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].surface_σ

error of bolometer.channel[:].aperture[:].surface

  • Units: m^2
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_unit_vector.x_σ

error of bolometer.channel[:].aperture[:].x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_unit_vector.y_σ

error of bolometer.channel[:].aperture[:].x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_unit_vector.z_σ

error of bolometer.channel[:].aperture[:].x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x1_width_σ

error of bolometer.channel[:].aperture[:].x1_width

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_unit_vector.x_σ

error of bolometer.channel[:].aperture[:].x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_unit_vector.y_σ

error of bolometer.channel[:].aperture[:].x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_unit_vector.z_σ

error of bolometer.channel[:].aperture[:].x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x2_width_σ

error of bolometer.channel[:].aperture[:].x2_width

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x3_unit_vector.x_σ

error of bolometer.channel[:].aperture[:].x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x3_unit_vector.y_σ

error of bolometer.channel[:].aperture[:].x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].aperture[:].x3_unit_vector.z_σ

error of bolometer.channel[:].aperture[:].x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].detector.centre.phi_σ

error of bolometer.channel[:].detector.centre.phi

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].detector.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.centre.r_σ

error of bolometer.channel[:].detector.centre.r

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.centre.z_σ

error of bolometer.channel[:].detector.centre.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

bolometer.channel[:].detector.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.channel[:].detector.outline.x1_σ

error of bolometer.channel[:].detector.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.channel[:].detector.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.channel[:].detector.outline.x1"]

bolometer.channel[:].detector.outline.x2_σ

error of bolometer.channel[:].detector.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.channel[:].detector.outline.x1"]

bolometer.channel[:].detector.radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.radius_σ

error of bolometer.channel[:].detector.radius

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

bolometer.channel[:].detector.surface_σ

error of bolometer.channel[:].detector.surface

  • Units: m^2
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_unit_vector.x_σ

error of bolometer.channel[:].detector.x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_unit_vector.y_σ

error of bolometer.channel[:].detector.x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_unit_vector.z_σ

error of bolometer.channel[:].detector.x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x1_width_σ

error of bolometer.channel[:].detector.x1_width

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_unit_vector.x_σ

error of bolometer.channel[:].detector.x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_unit_vector.y_σ

error of bolometer.channel[:].detector.x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_unit_vector.z_σ

error of bolometer.channel[:].detector.x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x2_width_σ

error of bolometer.channel[:].detector.x2_width

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x3_unit_vector.x_σ

error of bolometer.channel[:].detector.x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x3_unit_vector.y_σ

error of bolometer.channel[:].detector.x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].detector.x3_unit_vector.z_σ

error of bolometer.channel[:].detector.x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].etendue

Etendue (geometric extent) of the channel's optical system

  • Units: m^2.sr
  • Data Type: FLT_0D

bolometer.channel[:].etendue_σ

error of bolometer.channel[:].etendue

  • Units: m^2.sr
  • Data Type: FLT_0D

bolometer.channel[:].etendue_method.description

Verbose description

  • Data Type: STR_0D

bolometer.channel[:].etendue_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

bolometer.channel[:].etendue_method.name

Short string identifier

  • Data Type: STR_0D

bolometer.channel[:].identifier

ID of the channel

  • Data Type: STR_0D

bolometer.channel[:].line_of_sight.first_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.first_point.phi_σ

error of bolometer.channel[:].lineofsight.first_point.phi

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.first_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.first_point.r_σ

error of bolometer.channel[:].lineofsight.first_point.r

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.first_point.z

Height

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.first_point.z_σ

error of bolometer.channel[:].lineofsight.first_point.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.second_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.second_point.phi_σ

error of bolometer.channel[:].lineofsight.second_point.phi

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.second_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.second_point.r_σ

error of bolometer.channel[:].lineofsight.second_point.r

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.second_point.z

Height

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.second_point.z_σ

error of bolometer.channel[:].lineofsight.second_point.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.third_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.third_point.phi_σ

error of bolometer.channel[:].lineofsight.third_point.phi

  • Units: rad
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.third_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.third_point.r_σ

error of bolometer.channel[:].lineofsight.third_point.r

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.third_point.z

Height

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].line_of_sight.third_point.z_σ

error of bolometer.channel[:].lineofsight.third_point.z

  • Units: m
  • Data Type: FLT_0D

bolometer.channel[:].name

Name of the channel

  • Data Type: STR_0D

bolometer.channel[:].power.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.channel[:].power.time"]

bolometer.channel[:].power.data_σ

error of bolometer.channel[:].power.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.channel[:].power.time"]

bolometer.channel[:].power.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.channel[:].validity

Indicator of the validity of the channel for the whole acquisition period (0 means valid, negative values mean non-valid)

  • Data Type: INT_0D

bolometer.channel[:].validity_timed.data

Data

  • Data Type: INT_1D
  • Coordinates: ["bolometer.channel[:].validity_timed.time"]

bolometer.channel[:].validity_timed.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.code.commit

Unique commit reference of software

  • Data Type: STR_0D

bolometer.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bolometer.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bolometer.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bolometer.code.library[:].name

Name of software

  • Data Type: STR_0D

bolometer.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bolometer.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

bolometer.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bolometer.code.name

Name of software generating IDS

  • Data Type: STR_0D

bolometer.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["bolometer.time"]

bolometer.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bolometer.code.repository

URL of software repository

  • Data Type: STR_0D

bolometer.code.version

Unique version (tag) of software

  • Data Type: STR_0D

bolometer.grid.dim1

First dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.grid.dim1_σ

error of bolometer.grid.dim1

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.grid.dim2

Second dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.grid.dim2_σ

error of bolometer.grid.dim2

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.grid.volume_element

Volume of plasma enclosed in the cell formed by the nodes [dim1(i) dim2(j)], [dim1(i+1) dim2(j)], [dim1(i) dim2(j+1)] and [dim1(i+1) dim2(j+1)]

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["bolometer.grid.dim1", "bolometer.grid.dim2"]

bolometer.grid.volume_element_σ

error of bolometer.grid.volume_element

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["bolometer.grid.dim1", "bolometer.grid.dim2"]

bolometer.grid_type.description

Verbose description

  • Data Type: STR_0D

bolometer.grid_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

bolometer.grid_type.name

Short string identifier

  • Data Type: STR_0D

bolometer.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

bolometer.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

bolometer.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

bolometer.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

bolometer.ids_properties.occurrence

N/A

  • Data Type: INT_0D

bolometer.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

bolometer.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

bolometer.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

bolometer.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

bolometer.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bolometer.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

bolometer.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

bolometer.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

bolometer.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

bolometer.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

bolometer.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

bolometer.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

bolometer.latency_σ

error of bolometer.latency

  • Units: s
  • Data Type: FLT_0D

bolometer.power_density.data

Data

  • Units: W.m^-3
  • Data Type: FLT_3D
  • Coordinates: ["bolometer.grid.dim1", "bolometer.grid.dim2", "bolometer.power_density.time"]

bolometer.power_density.data_σ

error of bolometer.power_density.data

  • Units: W.m^-3
  • Data Type: FLT_3D
  • Coordinates: ["bolometer.grid.dim1", "bolometer.grid.dim2", "bolometer.power_density.time"]

bolometer.power_density.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bolometer.power_radiated_inside_lcfs

Radiated power from the plasma inside the Last Closed Flux Surface, reconstructed from bolometry data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.time"]

bolometer.power_radiated_inside_lcfs_σ

error of bolometer.powerradiatedinside_lcfs

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.time"]

bolometer.power_radiated_total

Total radiated power reconstructed from bolometry data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.time"]

bolometer.power_radiated_total_σ

error of bolometer.powerradiatedtotal

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["bolometer.time"]

bolometer.power_radiated_validity

Validity flag related to the radiated power reconstructions

  • Data Type: INT_1D
  • Coordinates: ["bolometer.time"]

bolometer.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bremsstrahlung_visible.channel[:].filter.detection_efficiency

Probability of detection of a photon impacting the detector as a function of its wavelength

  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].filter.wavelengths"]

bremsstrahlung_visible.channel[:].filter.detection_efficiency_σ

error of bremsstrahlungvisible.channel[:].filter.detectionefficiency

  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].filter.wavelengths"]

bremsstrahlung_visible.channel[:].filter.wavelength_lower

Lower bound of the filter wavelength range

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].filter.wavelength_lower_σ

error of bremsstrahlungvisible.channel[:].filter.wavelengthlower

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].filter.wavelength_upper

Upper bound of the filter wavelength range

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].filter.wavelength_upper_σ

error of bremsstrahlungvisible.channel[:].filter.wavelengthupper

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].filter.wavelengths

Array of wavelength values

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bremsstrahlung_visible.channel[:].filter.wavelengths_σ

error of bremsstrahlung_visible.channel[:].filter.wavelengths

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bremsstrahlung_visible.channel[:].intensity.data

Data

  • Units: (counts) s^-1
  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].intensity.time"]

bremsstrahlung_visible.channel[:].intensity.data_σ

error of bremsstrahlung_visible.channel[:].intensity.data

  • Units: (counts) s^-1
  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].intensity.time"]

bremsstrahlung_visible.channel[:].intensity.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bremsstrahlung_visible.channel[:].line_of_sight.first_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.first_point.phi_σ

error of bremsstrahlungvisible.channel[:].lineofsight.firstpoint.phi

  • Units: rad
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.first_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.first_point.r_σ

error of bremsstrahlungvisible.channel[:].lineofsight.firstpoint.r

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.first_point.z

Height

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.first_point.z_σ

error of bremsstrahlungvisible.channel[:].lineofsight.firstpoint.z

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.second_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.second_point.phi_σ

error of bremsstrahlungvisible.channel[:].lineofsight.secondpoint.phi

  • Units: rad
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.second_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.second_point.r_σ

error of bremsstrahlungvisible.channel[:].lineofsight.secondpoint.r

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.second_point.z

Height

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].line_of_sight.second_point.z_σ

error of bremsstrahlungvisible.channel[:].lineofsight.secondpoint.z

  • Units: m
  • Data Type: FLT_0D

bremsstrahlung_visible.channel[:].name

Name of the channel

  • Data Type: STR_0D

bremsstrahlung_visible.channel[:].radiance_spectral.data

Data

  • Units: (photons).m^-2.s^-1.sr^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].radiance_spectral.time"]

bremsstrahlung_visible.channel[:].radiance_spectral.data_σ

error of bremsstrahlungvisible.channel[:].radiancespectral.data

  • Units: (photons).m^-2.s^-1.sr^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].radiance_spectral.time"]

bremsstrahlung_visible.channel[:].radiance_spectral.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bremsstrahlung_visible.channel[:].zeff_line_average.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].zeff_line_average.time"]

bremsstrahlung_visible.channel[:].zeff_line_average.data_σ

error of bremsstrahlungvisible.channel[:].zeffline_average.data

  • Data Type: FLT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].zeff_line_average.time"]

bremsstrahlung_visible.channel[:].zeff_line_average.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

bremsstrahlung_visible.channel[:].zeff_line_average.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

bremsstrahlung_visible.channel[:].zeff_line_average.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["bremsstrahlung_visible.channel[:].zeff_line_average.time"]

bremsstrahlung_visible.code.commit

Unique commit reference of software

  • Data Type: STR_0D

bremsstrahlung_visible.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bremsstrahlung_visible.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bremsstrahlung_visible.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bremsstrahlung_visible.code.library[:].name

Name of software

  • Data Type: STR_0D

bremsstrahlung_visible.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bremsstrahlung_visible.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

bremsstrahlung_visible.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bremsstrahlung_visible.code.name

Name of software generating IDS

  • Data Type: STR_0D

bremsstrahlung_visible.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["bremsstrahlung_visible.time"]

bremsstrahlung_visible.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bremsstrahlung_visible.code.repository

URL of software repository

  • Data Type: STR_0D

bremsstrahlung_visible.code.version

Unique version (tag) of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

bremsstrahlung_visible.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.occurrence

N/A

  • Data Type: INT_0D

bremsstrahlung_visible.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

bremsstrahlung_visible.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

bremsstrahlung_visible.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

bremsstrahlung_visible.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

bremsstrahlung_visible.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

bremsstrahlung_visible.latency_σ

error of bremsstrahlung_visible.latency

  • Units: s
  • Data Type: FLT_0D

bremsstrahlung_visible.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

build.code.commit

Unique commit reference of software

  • Data Type: STR_0D

build.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

build.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

build.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

build.code.library[:].name

Name of software

  • Data Type: STR_0D

build.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

build.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

build.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

build.code.name

Name of software generating IDS

  • Data Type: STR_0D

build.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["equilibrium.time"]

build.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

build.code.repository

URL of software repository

  • Data Type: STR_0D

build.code.version

Unique version (tag) of software

  • Data Type: STR_0D

build.divertors.lower.installed

1 if a lower divertor is installed

  • Data Type: INT_0D

build.divertors.upper.installed

1 if a upper divertor is installed

  • Data Type: INT_0D

build.flux_swing.flattop

Total flux required for the plasma flattop

  • Units: Wb
  • Data Type: FLT_0D

build.flux_swing.flattop_σ

error of build.flux_swing.flattop

  • Units: Wb
  • Data Type: FLT_0D

build.flux_swing.pf

Contribution of vertical field from PF coils to flux swing

  • Units: Wb
  • Data Type: FLT_0D

build.flux_swing.pf_σ

error of build.flux_swing.pf

  • Units: Wb
  • Data Type: FLT_0D

build.flux_swing.rampup

Total flux required for the plasma rampup

  • Units: Wb
  • Data Type: FLT_0D

build.flux_swing.rampup_σ

error of build.flux_swing.rampup

  • Units: Wb
  • Data Type: FLT_0D

build.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

build.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

build.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

build.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

build.ids_properties.occurrence

N/A

  • Data Type: INT_0D

build.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

build.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

build.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

build.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

build.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

build.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

build.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

build.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

build.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

build.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

build.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

build.layer[:].area

Cross sectional area of the layer

  • Units: m^2
  • Data Type: FLT_0D

build.layer[:].area_σ

error of build.layer[:].area

  • Units: m^2
  • Data Type: FLT_0D

build.layer[:].coils_inside

list of coils inside of this layer

  • Data Type: INT_1D

build.layer[:].end_radius

End radius of the layer

  • Units: m
  • Data Type: FLT_0D

build.layer[:].end_radius_σ

error of build.layer[:].end_radius

  • Units: m
  • Data Type: FLT_0D

build.layer[:].identifier

Integer to identify the same layer on the high-field-side and low-field-side

  • Data Type: INT_0D

build.layer[:].material

Material of the layer

  • Data Type: STR_0D

build.layer[:].name

Name of the layer

  • Data Type: STR_0D

build.layer[:].outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

build.layer[:].outline.r_σ

error of build.layer[:].outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

build.layer[:].outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.layer[:].outline.r"]

build.layer[:].outline.z_σ

error of build.layer[:].outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.layer[:].outline.r"]

build.layer[:].shape

Integer to identify the physical shape of the layer

  • Data Type: INT_0D

build.layer[:].shape_parameters

List of the shape specific parameters for given shape type

  • Data Type: FLT_1D

build.layer[:].shape_parameters_σ

error of build.layer[:].shape_parameters

  • Data Type: FLT_1D

build.layer[:].side

Integer set to -1 if layer is on the low-field-side and 1 if layer is on the high-field-side. 0 for plasma. 2 for inner (eg. OH) and 3 for outer (eg. cryostat)

  • Data Type: INT_0D

build.layer[:].start_radius

Start radius of the layer

  • Units: m
  • Data Type: FLT_0D

build.layer[:].start_radius_σ

error of build.layer[:].start_radius

  • Units: m
  • Data Type: FLT_0D

build.layer[:].thickness

Radial thickness of layer

  • Units: m
  • Data Type: FLT_0D

build.layer[:].thickness_σ

error of build.layer[:].thickness

  • Units: m
  • Data Type: FLT_0D

build.layer[:].type

Layer type code

  1. vacuum (use this to set mimimum radius for OH)
  2. OH
  3. TF
  4. BL
  5. Shielding
  6. Wall

-1) Vacuum vessel * Data Type: INT_0D


build.layer[:].volume

Volume of the layer

  • Units: m^3
  • Data Type: FLT_0D

build.layer[:].volume_σ

error of build.layer[:].volume

  • Units: m^3
  • Data Type: FLT_0D

build.layer[:].volume_no_structures

Volume of the layer without structures

  • Units: m^3
  • Data Type: FLT_0D

build.layer[:].volume_no_structures_σ

error of build.layer[:].volumenostructures

  • Units: m^3
  • Data Type: FLT_0D

build.oh.critical_b_field

Critical magnetic field density to quench superconducting OH

  • Units: T
  • Data Type: FLT_0D

build.oh.critical_b_field_σ

error of build.oh.criticalbfield

  • Units: T
  • Data Type: FLT_0D

build.oh.critical_j

Critical current density to quench superconducting OH

  • Units: A/m^2
  • Data Type: FLT_0D

build.oh.critical_j_σ

error of build.oh.critical_j

  • Units: A/m^2
  • Data Type: FLT_0D

build.oh.flattop_duration

Estimated duration of the flattop

  • Units: s
  • Data Type: FLT_0D

build.oh.flattop_duration_σ

error of build.oh.flattop_duration

  • Units: s
  • Data Type: FLT_0D

build.oh.max_b_field

Maximum magnetic field in the OH solenoid, as required to satisfy rampup and flattop flux consumption

  • Units: T
  • Data Type: FLT_0D

build.oh.max_b_field_σ

error of build.oh.maxbfield

  • Units: T
  • Data Type: FLT_0D

build.oh.max_j

Maximum current density in the OH solenoid, as required to satisfy rampup and flattop flux consumption

  • Units: A/m^2
  • Data Type: FLT_0D

build.oh.max_j_σ

error of build.oh.max_j

  • Units: A/m^2
  • Data Type: FLT_0D

build.oh.technology.JxB_strain

Fraction of maximum JxB strain over maximum total strain on the OH coils

  • Data Type: FLT_0D

build.oh.technology.JxB_strain_σ

error of build.oh.technology.JxB_strain

  • Data Type: FLT_0D

build.oh.technology.fraction_steel

Fraction of stainless steel in the OH coils cross-sectional areas

  • Data Type: FLT_0D

build.oh.technology.fraction_steel_σ

error of build.oh.technology.fraction_steel

  • Data Type: FLT_0D

build.oh.technology.fraction_void

Fraction of void in the OH coils cross-sectional area. Void is everything (like coolant) that is not structural nor conductor

  • Data Type: FLT_0D

build.oh.technology.fraction_void_σ

error of build.oh.technology.fraction_void

  • Data Type: FLT_0D

build.oh.technology.material

Material of the OH coils

  • Data Type: STR_0D

build.oh.technology.ratio_SC_to_copper

Fraction of superconductor to copper cross-sectional areas in OH coils

  • Data Type: FLT_0D

build.oh.technology.ratio_SC_to_copper_σ

error of build.oh.technology.ratioSCto_copper

  • Data Type: FLT_0D

build.oh.technology.temperature

OH coils temperature

  • Units: K
  • Data Type: FLT_0D

build.oh.technology.temperature_σ

error of build.oh.technology.temperature

  • Units: K
  • Data Type: FLT_0D

build.oh.technology.thermal_strain

Fraction of thermal expansion strain over maximum total strain on the OH coils

  • Data Type: FLT_0D

build.oh.technology.thermal_strain_σ

error of build.oh.technology.thermal_strain

  • Data Type: FLT_0D

build.pf_active.rail[:].coils_cleareance

Clereance that coils have from other structures

  • Units: m
  • Data Type: FLT_0D

build.pf_active.rail[:].coils_cleareance_σ

error of build.pfactive.rail[:].coilscleareance

  • Units: m
  • Data Type: FLT_0D

build.pf_active.rail[:].coils_number

Number of coils on the rail

  • Data Type: INT_0D

build.pf_active.rail[:].name

Name of the coil rail

  • Data Type: STR_0D

build.pf_active.rail[:].outline.distance

Distance along the rail skipping gaps

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.pf_active.rail[:].outline.r"]

build.pf_active.rail[:].outline.distance_σ

error of build.pf_active.rail[:].outline.distance

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.pf_active.rail[:].outline.r"]

build.pf_active.rail[:].outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

build.pf_active.rail[:].outline.r_σ

error of build.pf_active.rail[:].outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

build.pf_active.rail[:].outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.pf_active.rail[:].outline.r"]

build.pf_active.rail[:].outline.z_σ

error of build.pf_active.rail[:].outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.pf_active.rail[:].outline.r"]

build.pf_active.technology.JxB_strain

Fraction of maximum JxB strain over maximum total strain on the PF coils

  • Data Type: FLT_0D

build.pf_active.technology.JxB_strain_σ

error of build.pfactive.technology.JxBstrain

  • Data Type: FLT_0D

build.pf_active.technology.fraction_steel

Fraction of stainless steel in the PF coils cross-sectional areas

  • Data Type: FLT_0D

build.pf_active.technology.fraction_steel_σ

error of build.pfactive.technology.fractionsteel

  • Data Type: FLT_0D

build.pf_active.technology.fraction_void

Fraction of void in the PF coils cross-sectional area. Void is everything (like coolant) that is not structural nor conductor

  • Data Type: FLT_0D

build.pf_active.technology.fraction_void_σ

error of build.pfactive.technology.fractionvoid

  • Data Type: FLT_0D

build.pf_active.technology.material

Material of the PF coils

  • Data Type: STR_0D

build.pf_active.technology.ratio_SC_to_copper

Fraction of superconductor to copper cross-sectional areas in the PF coils

  • Data Type: FLT_0D

build.pf_active.technology.ratio_SC_to_copper_σ

error of build.pfactive.technology.ratioSCtocopper

  • Data Type: FLT_0D

build.pf_active.technology.temperature

PF coils temperature

  • Units: K
  • Data Type: FLT_0D

build.pf_active.technology.temperature_σ

error of build.pf_active.technology.temperature

  • Units: K
  • Data Type: FLT_0D

build.pf_active.technology.thermal_strain

Fraction of thermal expansion strain over maximum total strain on the PF coils

  • Data Type: FLT_0D

build.pf_active.technology.thermal_strain_σ

error of build.pfactive.technology.thermalstrain

  • Data Type: FLT_0D

build.structure[:].area

Cross sectional area of the structure

  • Units: m^2
  • Data Type: FLT_0D

build.structure[:].area_σ

error of build.structure[:].area

  • Units: m^2
  • Data Type: FLT_0D

build.structure[:].identifier

String to identify structure

  • Data Type: STR_0D

build.structure[:].material

Material of the structure

  • Data Type: STR_0D

build.structure[:].name

Name of the structure

  • Data Type: STR_0D

build.structure[:].outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

build.structure[:].outline.r_σ

error of build.structure[:].outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

build.structure[:].outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.structure[:].outline.r"]

build.structure[:].outline.z_σ

error of build.structure[:].outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["build.structure[:].outline.r"]

build.structure[:].toroidal_angles

Toroidal position(s) of the structure

  • Units: rad
  • Data Type: FLT_1D

build.structure[:].toroidal_angles_σ

error of build.structure[:].toroidal_angles

  • Units: rad
  • Data Type: FLT_1D

build.structure[:].toroidal_extent

Toroidal extent of the structure

  • Units: rad
  • Data Type: FLT_0D

build.structure[:].toroidal_extent_σ

error of build.structure[:].toroidal_extent

  • Units: rad
  • Data Type: FLT_0D

build.structure[:].type

Structure type code

  • Data Type: INT_0D

build.structure[:].volume

Volume of the structure

  • Units: m^3
  • Data Type: FLT_0D

build.structure[:].volume_σ

error of build.structure[:].volume

  • Units: m^3
  • Data Type: FLT_0D

build.tf.coils_n

Number of TF coils around the torus

  • Data Type: INT_0D

build.tf.critical_b_field

Critical magnetic field to quench superconducting TF

  • Units: T
  • Data Type: FLT_0D

build.tf.critical_b_field_σ

error of build.tf.criticalbfield

  • Units: T
  • Data Type: FLT_0D

build.tf.critical_j

Critical current density to quench superconducting TF

  • Units: A/m^2
  • Data Type: FLT_0D

build.tf.critical_j_σ

error of build.tf.critical_j

  • Units: A/m^2
  • Data Type: FLT_0D

build.tf.max_b_field

Maximum magnetic field evaluated at the TF high-field side

  • Units: T
  • Data Type: FLT_0D

build.tf.max_b_field_σ

error of build.tf.maxbfield

  • Units: T
  • Data Type: FLT_0D

build.tf.max_j

Maximum current density in the TF solenoid

  • Units: A/m^2
  • Data Type: FLT_0D

build.tf.max_j_σ

error of build.tf.max_j

  • Units: A/m^2
  • Data Type: FLT_0D

build.tf.nose_hfs_fraction

Fraction of TF radial build assigned to TF nose (solid inboard support structure)

  • Data Type: FLT_0D

build.tf.nose_hfs_fraction_σ

error of build.tf.nosehfsfraction

  • Data Type: FLT_0D

build.tf.ripple

Fraction of toroidal field ripple evaluated at the outermost radius of the plasma chamber

  • Data Type: FLT_0D

build.tf.ripple_σ

error of build.tf.ripple

  • Data Type: FLT_0D

build.tf.technology.JxB_strain

Fraction of maximum JxB strain over maximum total strain on the TF coils

  • Data Type: FLT_0D

build.tf.technology.JxB_strain_σ

error of build.tf.technology.JxB_strain

  • Data Type: FLT_0D

build.tf.technology.fraction_steel

Fraction of stainless steel in the TF coils cross-sectional areas

  • Data Type: FLT_0D

build.tf.technology.fraction_steel_σ

error of build.tf.technology.fraction_steel

  • Data Type: FLT_0D

build.tf.technology.fraction_void

Fraction of void in the TF coils cross-sectional area. Void is everything (like coolant) that is not structural nor conductor

  • Data Type: FLT_0D

build.tf.technology.fraction_void_σ

error of build.tf.technology.fraction_void

  • Data Type: FLT_0D

build.tf.technology.material

Material of the TF coils

  • Data Type: STR_0D

build.tf.technology.ratio_SC_to_copper

Fraction of superconductor to copper cross-sectional areas in the TF coils

  • Data Type: FLT_0D

build.tf.technology.ratio_SC_to_copper_σ

error of build.tf.technology.ratioSCto_copper

  • Data Type: FLT_0D

build.tf.technology.temperature

TF coils temperature

  • Units: K
  • Data Type: FLT_0D

build.tf.technology.temperature_σ

error of build.tf.technology.temperature

  • Units: K
  • Data Type: FLT_0D

build.tf.technology.thermal_strain

Fraction of thermal expansion strain over maximum total strain on the TF coils

  • Data Type: FLT_0D

build.tf.technology.thermal_strain_σ

error of build.tf.technology.thermal_strain

  • Data Type: FLT_0D

build.tf.wedge_thickness

Thickness of the TF coils wedge evaluated

  • Units: m
  • Data Type: FLT_0D

build.tf.wedge_thickness_σ

error of build.tf.wedge_thickness

  • Units: m
  • Data Type: FLT_0D

build.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.code.commit

Unique commit reference of software

  • Data Type: STR_0D

calorimetry.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

calorimetry.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

calorimetry.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

calorimetry.code.library[:].name

Name of software

  • Data Type: STR_0D

calorimetry.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

calorimetry.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

calorimetry.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

calorimetry.code.name

Name of software generating IDS

  • Data Type: STR_0D

calorimetry.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.time"]

calorimetry.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

calorimetry.code.repository

URL of software repository

  • Data Type: STR_0D

calorimetry.code.version

Unique version (tag) of software

  • Data Type: STR_0D

calorimetry.cooling_loop[:].identifier

ID of the loop

  • Data Type: STR_0D

calorimetry.cooling_loop[:].mass_flow.data

Data

  • Units: kg.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].mass_flow.time"]

calorimetry.cooling_loop[:].mass_flow.data_σ

error of calorimetry.coolingloop[:].massflow.data

  • Units: kg.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].mass_flow.time"]

calorimetry.cooling_loop[:].mass_flow.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.cooling_loop[:].mass_flow.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.cooling_loop[:].mass_flow.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].mass_flow.time"]

calorimetry.cooling_loop[:].name

Name of the loop

  • Data Type: STR_0D

calorimetry.cooling_loop[:].temperature_in.data

Data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].temperature_in.time"]

calorimetry.cooling_loop[:].temperature_in.data_σ

error of calorimetry.coolingloop[:].temperaturein.data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].temperature_in.time"]

calorimetry.cooling_loop[:].temperature_in.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.cooling_loop[:].temperature_in.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.cooling_loop[:].temperature_in.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].temperature_in.time"]

calorimetry.cooling_loop[:].temperature_out.data

Data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].temperature_out.time"]

calorimetry.cooling_loop[:].temperature_out.data_σ

error of calorimetry.coolingloop[:].temperatureout.data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].temperature_out.time"]

calorimetry.cooling_loop[:].temperature_out.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.cooling_loop[:].temperature_out.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.cooling_loop[:].temperature_out.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.cooling_loop[:].temperature_out.time"]

calorimetry.group[:].component[:].energy_cumulated.data

Data

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].energy_cumulated.time"]

calorimetry.group[:].component[:].energy_cumulated.data_σ

error of calorimetry.group[:].component[:].energy_cumulated.data

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].energy_cumulated.time"]

calorimetry.group[:].component[:].energy_cumulated.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.group[:].component[:].energy_cumulated.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.group[:].component[:].energy_cumulated.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.group[:].component[:].energy_cumulated.time"]

calorimetry.group[:].component[:].energy_total.data

Data

  • Units: J
  • Data Type: FLT_0D

calorimetry.group[:].component[:].energy_total.data_σ

error of calorimetry.group[:].component[:].energy_total.data

  • Units: J
  • Data Type: FLT_0D

calorimetry.group[:].component[:].energy_total.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.group[:].component[:].identifier

ID of the component

  • Data Type: STR_0D

calorimetry.group[:].component[:].mass_flow.data

Data

  • Units: kg.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].mass_flow.time"]

calorimetry.group[:].component[:].mass_flow.data_σ

error of calorimetry.group[:].component[:].mass_flow.data

  • Units: kg.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].mass_flow.time"]

calorimetry.group[:].component[:].mass_flow.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.group[:].component[:].mass_flow.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.group[:].component[:].mass_flow.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.group[:].component[:].mass_flow.time"]

calorimetry.group[:].component[:].name

Name of the component

  • Data Type: STR_0D

calorimetry.group[:].component[:].power.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].power.time"]

calorimetry.group[:].component[:].power.data_σ

error of calorimetry.group[:].component[:].power.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].power.time"]

calorimetry.group[:].component[:].power.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.group[:].component[:].power.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.group[:].component[:].power.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.group[:].component[:].power.time"]

calorimetry.group[:].component[:].temperature_in.data

Data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].temperature_in.time"]

calorimetry.group[:].component[:].temperature_in.data_σ

error of calorimetry.group[:].component[:].temperature_in.data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].temperature_in.time"]

calorimetry.group[:].component[:].temperature_in.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.group[:].component[:].temperature_in.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.group[:].component[:].temperature_in.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.group[:].component[:].temperature_in.time"]

calorimetry.group[:].component[:].temperature_out.data

Data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].temperature_out.time"]

calorimetry.group[:].component[:].temperature_out.data_σ

error of calorimetry.group[:].component[:].temperature_out.data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].temperature_out.time"]

calorimetry.group[:].component[:].temperature_out.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.group[:].component[:].temperature_out.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.group[:].component[:].temperature_out.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.group[:].component[:].temperature_out.time"]

calorimetry.group[:].component[:].transit_time.data

Data

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].transit_time.time"]

calorimetry.group[:].component[:].transit_time.data_σ

error of calorimetry.group[:].component[:].transit_time.data

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["calorimetry.group[:].component[:].transit_time.time"]

calorimetry.group[:].component[:].transit_time.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

calorimetry.group[:].component[:].transit_time.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

calorimetry.group[:].component[:].transit_time.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["calorimetry.group[:].component[:].transit_time.time"]

calorimetry.group[:].identifier

ID of the group

  • Data Type: STR_0D

calorimetry.group[:].name

Name of the group

  • Data Type: STR_0D

calorimetry.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

calorimetry.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

calorimetry.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

calorimetry.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

calorimetry.ids_properties.occurrence

N/A

  • Data Type: INT_0D

calorimetry.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

calorimetry.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

calorimetry.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

calorimetry.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

calorimetry.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

calorimetry.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

calorimetry.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

calorimetry.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

calorimetry.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

calorimetry.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

calorimetry.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

calorimetry.latency_σ

error of calorimetry.latency

  • Units: s
  • Data Type: FLT_0D

calorimetry.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.calibration.luminance_to_temperature

Luminance to temperature conversion table

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...2"]

camera_ir.calibration.optical_temperature

Temperature of the optical components (digital levels)

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...N"]

camera_ir.calibration.transmission_barrel

Transmission of the optical barrel

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...N"]

camera_ir.calibration.transmission_mirror

Transmission of the mirror

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...N"]

camera_ir.calibration.transmission_window

Transmission of the window

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...N"]

camera_ir.code.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_ir.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_ir.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_ir.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_ir.code.library[:].name

Name of software

  • Data Type: STR_0D

camera_ir.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_ir.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

camera_ir.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_ir.code.name

Name of software generating IDS

  • Data Type: STR_0D

camera_ir.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["camera_ir.time"]

camera_ir.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_ir.code.repository

URL of software repository

  • Data Type: STR_0D

camera_ir.code.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_ir.fibre_bundle.fibre_positions.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.fibre_bundle.fibre_positions.x1_σ

error of camerair.fibrebundle.fibre_positions.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.fibre_bundle.fibre_positions.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.fibre_bundle.fibre_positions.x1"]

camera_ir.fibre_bundle.fibre_positions.x2_σ

error of camerair.fibrebundle.fibre_positions.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.fibre_bundle.fibre_positions.x1"]

camera_ir.fibre_bundle.fibre_radius

Radius of a single fibre

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.fibre_radius_σ

error of camerair.fibrebundle.fibre_radius

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.centre.phi_σ

error of camerair.fibrebundle.geometry.centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.centre.r_σ

error of camerair.fibrebundle.geometry.centre.r

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.centre.z_σ

error of camerair.fibrebundle.geometry.centre.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

camera_ir.fibre_bundle.geometry.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.fibre_bundle.geometry.outline.x1_σ

error of camerair.fibrebundle.geometry.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.fibre_bundle.geometry.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.fibre_bundle.geometry.outline.x1"]

camera_ir.fibre_bundle.geometry.outline.x2_σ

error of camerair.fibrebundle.geometry.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.fibre_bundle.geometry.outline.x1"]

camera_ir.fibre_bundle.geometry.radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.radius_σ

error of camerair.fibrebundle.geometry.radius

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.surface_σ

error of camerair.fibrebundle.geometry.surface

  • Units: m^2
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_unit_vector.x_σ

error of camerair.fibrebundle.geometry.x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_unit_vector.y_σ

error of camerair.fibrebundle.geometry.x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_unit_vector.z_σ

error of camerair.fibrebundle.geometry.x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x1_width_σ

error of camerair.fibrebundle.geometry.x1_width

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_unit_vector.x_σ

error of camerair.fibrebundle.geometry.x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_unit_vector.y_σ

error of camerair.fibrebundle.geometry.x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_unit_vector.z_σ

error of camerair.fibrebundle.geometry.x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x2_width_σ

error of camerair.fibrebundle.geometry.x2_width

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x3_unit_vector.x_σ

error of camerair.fibrebundle.geometry.x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x3_unit_vector.y_σ

error of camerair.fibrebundle.geometry.x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.fibre_bundle.geometry.x3_unit_vector.z_σ

error of camerair.fibrebundle.geometry.x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.frame[:].surface_temperature

Surface temperature image. First dimension : line index (horizontal axis). Second dimension: column index (vertical axis). The size of this matrix is assumed to be constant over time

  • Units: K
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_ir.frame[:].surface_temperature_σ

error of camerair.frame[:].surfacetemperature

  • Units: K
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_ir.frame[:].time

Time

  • Units: s
  • Data Type: FLT_0D

camera_ir.frame_analysis[:].distance_separatrix_midplane

Distance between the measurement position and the separatrix, mapped along flux surfaces to the outboard midplane, in the major radius direction. Positive value means the measurement is outside of the separatrix.

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.frame_analysis[:].distance_separatrix_midplane_σ

error of camerair.frameanalysis[:].distanceseparatrixmidplane

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.frame_analysis[:].power_flux_parallel

Parallel heat flux received by the element monitored by the camera, along the distanceseparatrixmidplane coordinate

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.frame_analysis[:].distance_separatrix_midplane"]

camera_ir.frame_analysis[:].power_flux_parallel_σ

error of camerair.frameanalysis[:].powerfluxparallel

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.frame_analysis[:].distance_separatrix_midplane"]

camera_ir.frame_analysis[:].sol_heat_decay_length

Heat flux decay length in SOL at divertor entrance, mapped to the mid-plane, this is the lambda_q parameter defined in reference T. Eich et al, Nucl. Fusion 53 (2013) 093031

  • Units: m
  • Data Type: FLT_0D

camera_ir.frame_analysis[:].sol_heat_decay_length_σ

error of camerair.frameanalysis[:].solheatdecay_length

  • Units: m
  • Data Type: FLT_0D

camera_ir.frame_analysis[:].time

Time

  • Units: s
  • Data Type: FLT_0D

camera_ir.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

camera_ir.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

camera_ir.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

camera_ir.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

camera_ir.ids_properties.occurrence

N/A

  • Data Type: INT_0D

camera_ir.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

camera_ir.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_ir.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

camera_ir.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_ir.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

camera_ir.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

camera_ir.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

camera_ir.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

camera_ir.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

camera_ir.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

camera_ir.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

camera_ir.latency_σ

error of camera_ir.latency

  • Units: s
  • Data Type: FLT_0D

camera_ir.midplane.description

Verbose description

  • Data Type: STR_0D

camera_ir.midplane.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_ir.midplane.name

Short string identifier

  • Data Type: STR_0D

camera_ir.name

Name of the camera

  • Data Type: STR_0D

camera_ir.optical_element[:].back_surface.curvature_type.description

Verbose description

  • Data Type: STR_0D

camera_ir.optical_element[:].back_surface.curvature_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_ir.optical_element[:].back_surface.curvature_type.name

Short string identifier

  • Data Type: STR_0D

camera_ir.optical_element[:].back_surface.x1_curvature

Radius of curvature in the X1 direction, to be filled only for curvature_type/index = 2, 4 or 5

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].back_surface.x1_curvature_σ

error of camerair.opticalelement[:].backsurface.x1curvature

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].back_surface.x2_curvature

Radius of curvature in the X2 direction, to be filled only for curvature_type/index = 3 or 5

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].back_surface.x2_curvature_σ

error of camerair.opticalelement[:].backsurface.x2curvature

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].front_surface.curvature_type.description

Verbose description

  • Data Type: STR_0D

camera_ir.optical_element[:].front_surface.curvature_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_ir.optical_element[:].front_surface.curvature_type.name

Short string identifier

  • Data Type: STR_0D

camera_ir.optical_element[:].front_surface.x1_curvature

Radius of curvature in the X1 direction, to be filled only for curvature_type/index = 2, 4 or 5

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].front_surface.x1_curvature_σ

error of camerair.opticalelement[:].frontsurface.x1curvature

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].front_surface.x2_curvature

Radius of curvature in the X2 direction, to be filled only for curvature_type/index = 3 or 5

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].front_surface.x2_curvature_σ

error of camerair.opticalelement[:].frontsurface.x2curvature

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.centre.phi_σ

error of camerair.opticalelement[:].geometry.centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.centre.r_σ

error of camerair.opticalelement[:].geometry.centre.r

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.centre.z_σ

error of camerair.opticalelement[:].geometry.centre.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

camera_ir.optical_element[:].geometry.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.optical_element[:].geometry.outline.x1_σ

error of camerair.opticalelement[:].geometry.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.optical_element[:].geometry.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].geometry.outline.x1"]

camera_ir.optical_element[:].geometry.outline.x2_σ

error of camerair.opticalelement[:].geometry.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].geometry.outline.x1"]

camera_ir.optical_element[:].geometry.radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.radius_σ

error of camerair.opticalelement[:].geometry.radius

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.surface_σ

error of camerair.opticalelement[:].geometry.surface

  • Units: m^2
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_unit_vector.x_σ

error of camerair.opticalelement[:].geometry.x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_unit_vector.y_σ

error of camerair.opticalelement[:].geometry.x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_unit_vector.z_σ

error of camerair.opticalelement[:].geometry.x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x1_width_σ

error of camerair.opticalelement[:].geometry.x1_width

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_unit_vector.x_σ

error of camerair.opticalelement[:].geometry.x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_unit_vector.y_σ

error of camerair.opticalelement[:].geometry.x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_unit_vector.z_σ

error of camerair.opticalelement[:].geometry.x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x2_width_σ

error of camerair.opticalelement[:].geometry.x2_width

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x3_unit_vector.x_σ

error of camerair.opticalelement[:].geometry.x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x3_unit_vector.y_σ

error of camerair.opticalelement[:].geometry.x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].geometry.x3_unit_vector.z_σ

error of camerair.opticalelement[:].geometry.x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].material_properties.extinction_coefficient

Extinction coefficient (for metal)

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.extinction_coefficient_σ

error of camerair.opticalelement[:].materialproperties.extinctioncoefficient

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.refractive_index

Refractive index (for metal and dielectric)

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.refractive_index_σ

error of camerair.opticalelement[:].materialproperties.refractiveindex

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.roughness

Roughness parameter of the material. Varies in range [0, 1]. 0 is perfectly specular, 1 is perfectly rough

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.roughness_σ

error of camerair.opticalelement[:].material_properties.roughness

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.transmission_coefficient

Transmission coefficient (for dielectric)

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.transmission_coefficient_σ

error of camerair.opticalelement[:].materialproperties.transmissioncoefficient

  • Data Type: FLT_1D
  • Coordinates: ["camera_ir.optical_element[:].material_properties.wavelengths"]

camera_ir.optical_element[:].material_properties.type.description

Verbose description

  • Data Type: STR_0D

camera_ir.optical_element[:].material_properties.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_ir.optical_element[:].material_properties.type.name

Short string identifier

  • Data Type: STR_0D

camera_ir.optical_element[:].material_properties.wavelengths

Wavelengths array for refractiveindex, extinctioncoefficient and transmission_coefficient

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.optical_element[:].material_properties.wavelengths_σ

error of camerair.opticalelement[:].material_properties.wavelengths

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_ir.optical_element[:].thickness

Distance between frontsurface and backsurface along the X3 vector

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].thickness_σ

error of camerair.opticalelement[:].thickness

  • Units: m
  • Data Type: FLT_0D

camera_ir.optical_element[:].type.description

Verbose description

  • Data Type: STR_0D

camera_ir.optical_element[:].type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_ir.optical_element[:].type.name

Short string identifier

  • Data Type: STR_0D

camera_ir.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].aperture[:].centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].centre.phi_σ

error of camera_visible.channel[:].aperture[:].centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].centre.r_σ

error of camera_visible.channel[:].aperture[:].centre.r

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].centre.z_σ

error of camera_visible.channel[:].aperture[:].centre.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

camera_visible.channel[:].aperture[:].outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].aperture[:].outline.x1_σ

error of camera_visible.channel[:].aperture[:].outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].aperture[:].outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].aperture[:].outline.x1"]

camera_visible.channel[:].aperture[:].outline.x2_σ

error of camera_visible.channel[:].aperture[:].outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].aperture[:].outline.x1"]

camera_visible.channel[:].aperture[:].radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].radius_σ

error of camera_visible.channel[:].aperture[:].radius

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].surface_σ

error of camera_visible.channel[:].aperture[:].surface

  • Units: m^2
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_unit_vector.x_σ

error of cameravisible.channel[:].aperture[:].x1unit_vector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_unit_vector.y_σ

error of cameravisible.channel[:].aperture[:].x1unit_vector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_unit_vector.z_σ

error of cameravisible.channel[:].aperture[:].x1unit_vector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x1_width_σ

error of cameravisible.channel[:].aperture[:].x1width

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_unit_vector.x_σ

error of cameravisible.channel[:].aperture[:].x2unit_vector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_unit_vector.y_σ

error of cameravisible.channel[:].aperture[:].x2unit_vector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_unit_vector.z_σ

error of cameravisible.channel[:].aperture[:].x2unit_vector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x2_width_σ

error of cameravisible.channel[:].aperture[:].x2width

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x3_unit_vector.x_σ

error of cameravisible.channel[:].aperture[:].x3unit_vector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x3_unit_vector.y_σ

error of cameravisible.channel[:].aperture[:].x3unit_vector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].aperture[:].x3_unit_vector.z_σ

error of cameravisible.channel[:].aperture[:].x3unit_vector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].columns_n

Number of pixel columns in the horizontal direction

  • Data Type: INT_0D

camera_visible.channel[:].detector[:].counts_to_radiance

Counts to radiance factor, for each pixel of the detector. Includes both the transmission losses in the relay optics and the quantum efficiency of the camera itself, integrated over the wavelength range

  • Units: photons.m^-2.s^-1.sr^-1.counts^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_visible.channel[:].detector[:].counts_to_radiance_σ

error of cameravisible.channel[:].detector[:].countsto_radiance

  • Units: photons.m^-2.s^-1.sr^-1.counts^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_visible.channel[:].detector[:].exposure_time

Exposure time

  • Units: s
  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].exposure_time_σ

error of cameravisible.channel[:].detector[:].exposuretime

  • Units: s
  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].frame[:].image_raw

Raw image (unprocessed) (digital levels). First dimension : line index (horizontal axis). Second dimension: column index (vertical axis).

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...N"]

camera_visible.channel[:].detector[:].frame[:].radiance

Radiance image. First dimension : line index (horizontal axis). Second dimension: column index (vertical axis).

  • Units: photons.m^-2.s^-1.sr^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_visible.channel[:].detector[:].frame[:].radiance_σ

error of camera_visible.channel[:].detector[:].frame[:].radiance

  • Units: photons.m^-2.s^-1.sr^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_visible.channel[:].detector[:].frame[:].time

Time

  • Units: s
  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim1

First dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim1_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.emission_grid.dim1

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim2

Second dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim2_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.emission_grid.dim2

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim3

Third dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim3_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.emission_grid.dim3

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.grid_type.description

Verbose description

  • Data Type: STR_0D

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.grid_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.grid_type.name

Short string identifier

  • Data Type: STR_0D

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.data

Interpolated Ray Transfer Matrix (RTM, or geometry matrix), which provides transformation of the reflected light from each interpolation knot to the receiver (detector pixel). When convolving with an emission profile, the values must be interpolated to the emission grid and multiplied by the volume of the grid cells. The interpolated matrix is given on an array of interpolation knots of coordinates r, z and phi (third dimension of this array). The first two dimension correspond to the detector pixels : first dimension : line index (horizontal axis); second dimension: column index (vertical axis).

  • Units: m^-2
  • Data Type: FLT_3D
  • Coordinates: ["1...N", "1...N", "camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r"]

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.data_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.interpolated.data

  • Units: m^-2
  • Data Type: FLT_3D
  • Coordinates: ["1...N", "1...N", "camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r"]

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.phi

Toroidal angle (oriented counter-clockwise when viewing from above) of interpolation knots

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r"]

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.phi_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.interpolated.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r"]

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r

Major radius of interpolation knots

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.interpolated.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.z

Height of interpolation knots

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r"]

camera_visible.channel[:].detector[:].geometry_matrix.interpolated.z_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.interpolated.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.interpolated.r"]

camera_visible.channel[:].detector[:].geometry_matrix.voxel_map

Voxel map for geometry matrix. The cells with same number are merged in the computation into a single emission source meta-cell (the voxel). Cells with number -1 are excluded. Voxel count starts from 0.

  • Data Type: INT_3D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim1", "camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim2", "camera_visible.channel[:].detector[:].geometry_matrix.emission_grid.dim3"]

camera_visible.channel[:].detector[:].geometry_matrix.voxels_n

Number of voxels defined in the voxel_map.

  • Data Type: INT_0D

camera_visible.channel[:].detector[:].geometry_matrix.with_reflections.data

The Ray Transfer Matrix (RTM, or geometry matrix) here provides transformation of the signal from each individual unit light source (voxel) to each pixel of the receiver (detector). The emission profile has [photons.m^-3.s^-1.sr^-1] units and radiance signal has [photons.m^-2.s^-1.sr^-1] units. So the RTM has [m] units. This data is stored in a sparse form, i.e. the array contains only the non-zero element of the Ray transfer matrix. The voxel index corresponding to an element of this array can be found in voxelindices. The pixel indices corresponding to an element of this array can be found in pixelindices

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.with_reflections.data_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.with_reflections.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.with_reflections.pixel_indices

List of pixel indices used in the sparse data array. The first dimension refers to the data array index. The second dimension lists the line index (horizontal axis) in first position, then the column index (vertical axis).

  • Data Type: INT_2D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.with_reflections.data", "1...2"]

camera_visible.channel[:].detector[:].geometry_matrix.with_reflections.voxel_indices

List of voxel indices (defined in the voxel map) used in the sparse data array

  • Data Type: INT_1D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.with_reflections.data"]

camera_visible.channel[:].detector[:].geometry_matrix.without_reflections.data

The Ray Transfer Matrix (RTM, or geometry matrix) here provides transformation of the signal from each individual unit light source (voxel) to each pixel of the receiver (detector). The emission profile has [photons.m^-3.s^-1.sr^-1] units and radiance signal has [photons.m^-2.s^-1.sr^-1] units. So the RTM has [m] units. This data is stored in a sparse form, i.e. the array contains only the non-zero element of the Ray transfer matrix. The voxel index corresponding to an element of this array can be found in voxelindices. The pixel indices corresponding to an element of this array can be found in pixelindices

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.without_reflections.data_σ

error of cameravisible.channel[:].detector[:].geometrymatrix.without_reflections.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].geometry_matrix.without_reflections.pixel_indices

List of pixel indices used in the sparse data array. The first dimension refers to the data array index. The second dimension lists the line index (horizontal axis) in first position, then the column index (vertical axis).

  • Data Type: INT_2D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.without_reflections.data", "1...2"]

camera_visible.channel[:].detector[:].geometry_matrix.without_reflections.voxel_indices

List of voxel indices (defined in the voxel map) used in the sparse data array

  • Data Type: INT_1D
  • Coordinates: ["camera_visible.channel[:].detector[:].geometry_matrix.without_reflections.data"]

camera_visible.channel[:].detector[:].lines_n

Number of pixel lines in the vertical direction

  • Data Type: INT_0D

camera_visible.channel[:].detector[:].noise

Detector noise (e.g. read-out noise) (rms counts per second exposure time)

  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].noise_σ

error of camera_visible.channel[:].detector[:].noise

  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].pixel_to_alpha

Alpha angle of each pixel in the horizontal axis

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].pixel_to_alpha_σ

error of cameravisible.channel[:].detector[:].pixelto_alpha

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].pixel_to_beta

Beta angle of each pixel in the vertical axis

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].pixel_to_beta_σ

error of cameravisible.channel[:].detector[:].pixelto_beta

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].detector[:].wavelength_lower

Lower bound of the detector wavelength range

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].wavelength_lower_σ

error of cameravisible.channel[:].detector[:].wavelengthlower

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].wavelength_upper

Upper bound of the detector wavelength range

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].detector[:].wavelength_upper_σ

error of cameravisible.channel[:].detector[:].wavelengthupper

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.fibre_positions.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].fibre_bundle.fibre_positions.x1_σ

error of cameravisible.channel[:].fibrebundle.fibre_positions.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].fibre_bundle.fibre_positions.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].fibre_bundle.fibre_positions.x1"]

camera_visible.channel[:].fibre_bundle.fibre_positions.x2_σ

error of cameravisible.channel[:].fibrebundle.fibre_positions.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].fibre_bundle.fibre_positions.x1"]

camera_visible.channel[:].fibre_bundle.fibre_radius

Radius of a single fibre

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.fibre_radius_σ

error of cameravisible.channel[:].fibrebundle.fibre_radius

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.centre.phi_σ

error of cameravisible.channel[:].fibrebundle.geometry.centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.centre.r_σ

error of cameravisible.channel[:].fibrebundle.geometry.centre.r

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.centre.z_σ

error of cameravisible.channel[:].fibrebundle.geometry.centre.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

camera_visible.channel[:].fibre_bundle.geometry.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].fibre_bundle.geometry.outline.x1_σ

error of cameravisible.channel[:].fibrebundle.geometry.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].fibre_bundle.geometry.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].fibre_bundle.geometry.outline.x1"]

camera_visible.channel[:].fibre_bundle.geometry.outline.x2_σ

error of cameravisible.channel[:].fibrebundle.geometry.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].fibre_bundle.geometry.outline.x1"]

camera_visible.channel[:].fibre_bundle.geometry.radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.radius_σ

error of cameravisible.channel[:].fibrebundle.geometry.radius

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.surface_σ

error of cameravisible.channel[:].fibrebundle.geometry.surface

  • Units: m^2
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_unit_vector.x_σ

error of cameravisible.channel[:].fibrebundle.geometry.x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_unit_vector.y_σ

error of cameravisible.channel[:].fibrebundle.geometry.x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_unit_vector.z_σ

error of cameravisible.channel[:].fibrebundle.geometry.x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x1_width_σ

error of cameravisible.channel[:].fibrebundle.geometry.x1_width

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_unit_vector.x_σ

error of cameravisible.channel[:].fibrebundle.geometry.x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_unit_vector.y_σ

error of cameravisible.channel[:].fibrebundle.geometry.x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_unit_vector.z_σ

error of cameravisible.channel[:].fibrebundle.geometry.x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x2_width_σ

error of cameravisible.channel[:].fibrebundle.geometry.x2_width

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x3_unit_vector.x_σ

error of cameravisible.channel[:].fibrebundle.geometry.x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x3_unit_vector.y_σ

error of cameravisible.channel[:].fibrebundle.geometry.x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].fibre_bundle.geometry.x3_unit_vector.z_σ

error of cameravisible.channel[:].fibrebundle.geometry.x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].name

Name of the channel

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].back_surface.curvature_type.description

Verbose description

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].back_surface.curvature_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_visible.channel[:].optical_element[:].back_surface.curvature_type.name

Short string identifier

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].back_surface.x1_curvature

Radius of curvature in the X1 direction, to be filled only for curvature_type/index = 2, 4 or 5

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].back_surface.x1_curvature_σ

error of cameravisible.channel[:].opticalelement[:].backsurface.x1curvature

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].back_surface.x2_curvature

Radius of curvature in the X2 direction, to be filled only for curvature_type/index = 3 or 5

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].back_surface.x2_curvature_σ

error of cameravisible.channel[:].opticalelement[:].backsurface.x2curvature

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].front_surface.curvature_type.description

Verbose description

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].front_surface.curvature_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_visible.channel[:].optical_element[:].front_surface.curvature_type.name

Short string identifier

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].front_surface.x1_curvature

Radius of curvature in the X1 direction, to be filled only for curvature_type/index = 2, 4 or 5

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].front_surface.x1_curvature_σ

error of cameravisible.channel[:].opticalelement[:].frontsurface.x1curvature

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].front_surface.x2_curvature

Radius of curvature in the X2 direction, to be filled only for curvature_type/index = 3 or 5

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].front_surface.x2_curvature_σ

error of cameravisible.channel[:].opticalelement[:].frontsurface.x2curvature

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.centre.phi_σ

error of cameravisible.channel[:].opticalelement[:].geometry.centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.centre.r_σ

error of cameravisible.channel[:].opticalelement[:].geometry.centre.r

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.centre.z_σ

error of cameravisible.channel[:].opticalelement[:].geometry.centre.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

camera_visible.channel[:].optical_element[:].geometry.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].optical_element[:].geometry.outline.x1_σ

error of cameravisible.channel[:].opticalelement[:].geometry.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].optical_element[:].geometry.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].geometry.outline.x1"]

camera_visible.channel[:].optical_element[:].geometry.outline.x2_σ

error of cameravisible.channel[:].opticalelement[:].geometry.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].geometry.outline.x1"]

camera_visible.channel[:].optical_element[:].geometry.radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.radius_σ

error of cameravisible.channel[:].opticalelement[:].geometry.radius

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.surface_σ

error of cameravisible.channel[:].opticalelement[:].geometry.surface

  • Units: m^2
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_unit_vector.x_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_unit_vector.y_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_unit_vector.z_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x1_width_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x1_width

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_unit_vector.x_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_unit_vector.y_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_unit_vector.z_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x2_width_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x2_width

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x3_unit_vector.x_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x3_unit_vector.y_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].geometry.x3_unit_vector.z_σ

error of cameravisible.channel[:].opticalelement[:].geometry.x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].material_properties.extinction_coefficient

Extinction coefficient (for metal)

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.extinction_coefficient_σ

error of cameravisible.channel[:].opticalelement[:].materialproperties.extinctioncoefficient

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.refractive_index

Refractive index (for metal and dielectric)

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.refractive_index_σ

error of cameravisible.channel[:].opticalelement[:].materialproperties.refractiveindex

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.roughness

Roughness parameter of the material. Varies in range [0, 1]. 0 is perfectly specular, 1 is perfectly rough

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.roughness_σ

error of cameravisible.channel[:].opticalelement[:].material_properties.roughness

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.transmission_coefficient

Transmission coefficient (for dielectric)

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.transmission_coefficient_σ

error of cameravisible.channel[:].opticalelement[:].materialproperties.transmissioncoefficient

  • Data Type: FLT_1D
  • Coordinates: ["camera_visible.channel[:].optical_element[:].material_properties.wavelengths"]

camera_visible.channel[:].optical_element[:].material_properties.type.description

Verbose description

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].material_properties.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_visible.channel[:].optical_element[:].material_properties.type.name

Short string identifier

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].material_properties.wavelengths

Wavelengths array for refractiveindex, extinctioncoefficient and transmission_coefficient

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].optical_element[:].material_properties.wavelengths_σ

error of cameravisible.channel[:].opticalelement[:].material_properties.wavelengths

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_visible.channel[:].optical_element[:].thickness

Distance between frontsurface and backsurface along the X3 vector

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].thickness_σ

error of cameravisible.channel[:].opticalelement[:].thickness

  • Units: m
  • Data Type: FLT_0D

camera_visible.channel[:].optical_element[:].type.description

Verbose description

  • Data Type: STR_0D

camera_visible.channel[:].optical_element[:].type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_visible.channel[:].optical_element[:].type.name

Short string identifier

  • Data Type: STR_0D

camera_visible.channel[:].viewing_angle_alpha_bounds

Minimum and maximum values of alpha angle of the field of view, where alpha is the agle between the axis X3 and projection of the chord of view on the plane X1X3 counted clockwise from the top view of X2 axis. X1, X2, X3 are the ones of the first aperture (i.e. the closest to the plasma).

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_visible.channel[:].viewing_angle_alpha_bounds_σ

error of cameravisible.channel[:].viewinganglealphabounds

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_visible.channel[:].viewing_angle_beta_bounds

Minimum and maximum values of beta angle of the field of view, where beta is the angle between the axis X3 and projection of the chord of view on the plane X2X3 counted clockwise from the top view of X1 axis. X1, X2, X3 are the ones of the first aperture (i.e. the closest to the plasma).

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_visible.channel[:].viewing_angle_beta_bounds_σ

error of cameravisible.channel[:].viewinganglebetabounds

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_visible.code.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_visible.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_visible.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_visible.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_visible.code.library[:].name

Name of software

  • Data Type: STR_0D

camera_visible.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_visible.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

camera_visible.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_visible.code.name

Name of software generating IDS

  • Data Type: STR_0D

camera_visible.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["camera_visible.time"]

camera_visible.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_visible.code.repository

URL of software repository

  • Data Type: STR_0D

camera_visible.code.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_visible.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

camera_visible.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

camera_visible.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

camera_visible.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

camera_visible.ids_properties.occurrence

N/A

  • Data Type: INT_0D

camera_visible.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

camera_visible.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_visible.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

camera_visible.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_visible.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

camera_visible.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

camera_visible.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

camera_visible.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

camera_visible.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

camera_visible.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

camera_visible.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

camera_visible.latency_σ

error of camera_visible.latency

  • Units: s
  • Data Type: FLT_0D

camera_visible.name

Name of the camera

  • Data Type: STR_0D

camera_visible.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.aperture.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_x_rays.aperture.centre.phi_σ

error of cameraxrays.aperture.centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_x_rays.aperture.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.centre.r_σ

error of cameraxrays.aperture.centre.r

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.centre.z_σ

error of cameraxrays.aperture.centre.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

camera_x_rays.aperture.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.aperture.outline.x1_σ

error of cameraxrays.aperture.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.aperture.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.aperture.outline.x1"]

camera_x_rays.aperture.outline.x2_σ

error of cameraxrays.aperture.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.aperture.outline.x1"]

camera_x_rays.aperture.radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.radius_σ

error of cameraxrays.aperture.radius

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

camera_x_rays.aperture.surface_σ

error of cameraxrays.aperture.surface

  • Units: m^2
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_unit_vector.x_σ

error of cameraxrays.aperture.x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_unit_vector.y_σ

error of cameraxrays.aperture.x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_unit_vector.z_σ

error of cameraxrays.aperture.x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x1_width_σ

error of cameraxrays.aperture.x1_width

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_unit_vector.x_σ

error of cameraxrays.aperture.x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_unit_vector.y_σ

error of cameraxrays.aperture.x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_unit_vector.z_σ

error of cameraxrays.aperture.x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x2_width_σ

error of cameraxrays.aperture.x2_width

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x3_unit_vector.x_σ

error of cameraxrays.aperture.x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x3_unit_vector.y_σ

error of cameraxrays.aperture.x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.aperture.x3_unit_vector.z_σ

error of cameraxrays.aperture.x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.camera_dimensions

Total camera dimension in each direction (x1, x2)

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_x_rays.camera.camera_dimensions_σ

error of cameraxrays.camera.camera_dimensions

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_x_rays.camera.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_x_rays.camera.centre.phi_σ

error of cameraxrays.camera.centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_x_rays.camera.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.centre.r_σ

error of cameraxrays.camera.centre.r

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.centre.z_σ

error of cameraxrays.camera.centre.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.identifier

ID of the camera

  • Data Type: STR_0D

camera_x_rays.camera.line_of_sight.first_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.first_point.phi_σ

error of cameraxrays.camera.lineofsight.first_point.phi

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.first_point.r

Major radius

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.first_point.r_σ

error of cameraxrays.camera.lineofsight.first_point.r

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.first_point.z

Height

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.first_point.z_σ

error of cameraxrays.camera.lineofsight.first_point.z

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.second_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.second_point.phi_σ

error of cameraxrays.camera.lineofsight.second_point.phi

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.second_point.r

Major radius

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.second_point.r_σ

error of cameraxrays.camera.lineofsight.second_point.r

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.second_point.z

Height

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.line_of_sight.second_point.z_σ

error of cameraxrays.camera.lineofsight.second_point.z

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.pixel_dimensions

Pixel dimension in each direction (x1, x2)

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_x_rays.camera.pixel_dimensions_σ

error of cameraxrays.camera.pixel_dimensions

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...2"]

camera_x_rays.camera.pixel_position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.pixel_position.phi_σ

error of cameraxrays.camera.pixel_position.phi

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.pixel_position.r

Major radius

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.pixel_position.r_σ

error of cameraxrays.camera.pixel_position.r

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.pixel_position.z

Height

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.pixel_position.z_σ

error of cameraxrays.camera.pixel_position.z

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.camera.pixels_n

Number of pixels in each direction (x1, x2)

  • Data Type: INT_1D
  • Coordinates: ["1...2"]

camera_x_rays.camera.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x1_unit_vector.x_σ

error of cameraxrays.camera.x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x1_unit_vector.y_σ

error of cameraxrays.camera.x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x1_unit_vector.z_σ

error of cameraxrays.camera.x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x2_unit_vector.x_σ

error of cameraxrays.camera.x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x2_unit_vector.y_σ

error of cameraxrays.camera.x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x2_unit_vector.z_σ

error of cameraxrays.camera.x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x3_unit_vector.x_σ

error of cameraxrays.camera.x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x3_unit_vector.y_σ

error of cameraxrays.camera.x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.camera.x3_unit_vector.z_σ

error of cameraxrays.camera.x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.code.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_x_rays.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_x_rays.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_x_rays.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_x_rays.code.library[:].name

Name of software

  • Data Type: STR_0D

camera_x_rays.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_x_rays.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

camera_x_rays.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_x_rays.code.name

Name of software generating IDS

  • Data Type: STR_0D

camera_x_rays.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["camera_x_rays.time"]

camera_x_rays.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_x_rays.code.repository

URL of software repository

  • Data Type: STR_0D

camera_x_rays.code.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_x_rays.detector_humidity.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.detector_humidity.time"]

camera_x_rays.detector_humidity.data_σ

error of cameraxrays.detector_humidity.data

  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.detector_humidity.time"]

camera_x_rays.detector_humidity.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.detector_temperature.data

Data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.detector_temperature.time"]

camera_x_rays.detector_temperature.data_σ

error of cameraxrays.detector_temperature.data

  • Units: K
  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.detector_temperature.time"]

camera_x_rays.detector_temperature.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.energy_configuration_name

Name of the chosen energy configuration (energy detection threshold)

  • Data Type: STR_0D

camera_x_rays.energy_threshold_lower

Lower energy detection threshold on each pixel of the detector (photons are counted only if their energy is above this value)

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.energy_threshold_lower_σ

error of cameraxrays.energythresholdlower

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.exposure_time

Exposure time

  • Units: s
  • Data Type: FLT_0D

camera_x_rays.exposure_time_σ

error of cameraxrays.exposure_time

  • Units: s
  • Data Type: FLT_0D

camera_x_rays.filter_window.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

camera_x_rays.filter_window.centre.phi_σ

error of cameraxrays.filter_window.centre.phi

  • Units: rad
  • Data Type: FLT_0D

camera_x_rays.filter_window.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.centre.r_σ

error of cameraxrays.filter_window.centre.r

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.centre.z_σ

error of cameraxrays.filter_window.centre.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.curvature_type.description

Verbose description

  • Data Type: STR_0D

camera_x_rays.filter_window.curvature_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_x_rays.filter_window.curvature_type.name

Short string identifier

  • Data Type: STR_0D

camera_x_rays.filter_window.geometry_type.description

Verbose description

  • Data Type: STR_0D

camera_x_rays.filter_window.geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_x_rays.filter_window.geometry_type.name

Short string identifier

  • Data Type: STR_0D

camera_x_rays.filter_window.identifier

ID of the filter

  • Data Type: STR_0D

camera_x_rays.filter_window.material.description

Verbose description

  • Data Type: STR_0D

camera_x_rays.filter_window.material.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_x_rays.filter_window.material.name

Short string identifier

  • Data Type: STR_0D

camera_x_rays.filter_window.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.filter_window.outline.x1_σ

error of cameraxrays.filter_window.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.filter_window.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.filter_window.outline.x1"]

camera_x_rays.filter_window.outline.x2_σ

error of cameraxrays.filter_window.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.filter_window.outline.x1"]

camera_x_rays.filter_window.photon_absorption

Probability of absorbing a photon passing through the filter as a function of its wavelength

  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.filter_window.wavelengths"]

camera_x_rays.filter_window.photon_absorption_σ

error of cameraxrays.filterwindow.photonabsorption

  • Data Type: FLT_1D
  • Coordinates: ["camera_x_rays.filter_window.wavelengths"]

camera_x_rays.filter_window.radius

Radius of the circle, used only if geometry_type/index = 2

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.radius_σ

error of cameraxrays.filter_window.radius

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.surface

Surface of the filter, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

camera_x_rays.filter_window.surface_σ

error of cameraxrays.filter_window.surface

  • Units: m^2
  • Data Type: FLT_0D

camera_x_rays.filter_window.thickness

Thickness of the filter window

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.thickness_σ

error of cameraxrays.filter_window.thickness

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.wavelength_lower

Lower bound of the filter wavelength range

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.wavelength_lower_σ

error of cameraxrays.filterwindow.wavelengthlower

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.wavelength_upper

Upper bound of the filter wavelength range

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.wavelength_upper_σ

error of cameraxrays.filterwindow.wavelengthupper

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.wavelengths

Array of wavelength values

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.filter_window.wavelengths_σ

error of cameraxrays.filter_window.wavelengths

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.filter_window.x1_curvature

Radius of curvature in the X1 direction, to be filled only for curvature_type/index = 2, 4 or 5

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_curvature_σ

error of cameraxrays.filterwindow.x1curvature

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_unit_vector.x_σ

error of cameraxrays.filterwindow.x1unit_vector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_unit_vector.y_σ

error of cameraxrays.filterwindow.x1unit_vector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_unit_vector.z_σ

error of cameraxrays.filterwindow.x1unit_vector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_width

Full width of the filter in the X1 direction, used only if geometry_type/index = 3

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x1_width_σ

error of cameraxrays.filterwindow.x1width

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_curvature

Radius of curvature in the X2 direction, to be filled only for curvature_type/index = 3 or 5

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_curvature_σ

error of cameraxrays.filterwindow.x2curvature

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_unit_vector.x_σ

error of cameraxrays.filterwindow.x2unit_vector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_unit_vector.y_σ

error of cameraxrays.filterwindow.x2unit_vector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_unit_vector.z_σ

error of cameraxrays.filterwindow.x2unit_vector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_width

Full width of the filter in the X2 direction, used only if geometry_type/index = 3

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x2_width_σ

error of cameraxrays.filterwindow.x2width

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x3_unit_vector.x_σ

error of cameraxrays.filterwindow.x3unit_vector.x

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x3_unit_vector.y_σ

error of cameraxrays.filterwindow.x3unit_vector.y

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.filter_window.x3_unit_vector.z_σ

error of cameraxrays.filterwindow.x3unit_vector.z

  • Units: m
  • Data Type: FLT_0D

camera_x_rays.frame[:].counts_n

Number of counts detected on each pixel during one exposure time. First dimension : line index (horizontal axis). Second dimension: column index (vertical axis).

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.frame[:].time

Time

  • Units: s
  • Data Type: FLT_0D

camera_x_rays.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

camera_x_rays.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

camera_x_rays.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

camera_x_rays.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

camera_x_rays.ids_properties.occurrence

N/A

  • Data Type: INT_0D

camera_x_rays.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

camera_x_rays.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

camera_x_rays.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

camera_x_rays.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

camera_x_rays.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

camera_x_rays.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

camera_x_rays.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

camera_x_rays.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

camera_x_rays.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

camera_x_rays.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

camera_x_rays.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

camera_x_rays.latency_σ

error of cameraxrays.latency

  • Units: s
  • Data Type: FLT_0D

camera_x_rays.name

Name of the camera

  • Data Type: STR_0D

camera_x_rays.photon_energy

List of values of the photon energy (coordinate for quantum_effiency)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.photon_energy_σ

error of cameraxrays.photon_energy

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

camera_x_rays.pixel_status

Status of each pixel : +1 for valid pixels, -1 for inactive pixels, -2 for mis-calibrated pixels.

  • Data Type: INT_2D
  • Coordinates: ["1...N", "1...N"]

camera_x_rays.quantum_efficiency

Quantum efficiency of the detector, i.e. conversion factor multiplying the number of counts to obtain the number of photons impacting the detector, tabulated as a function of the photon energy, for each pixel of the detector. If all pixels have the same quantum efficiency, just set the size of the first and second dimensions to 1

  • Data Type: FLT_3D
  • Coordinates: ["1...N", "1...N", "camera_x_rays.photon_energy"]

camera_x_rays.quantum_efficiency_σ

error of cameraxrays.quantum_efficiency

  • Data Type: FLT_3D
  • Coordinates: ["1...N", "1...N", "camera_x_rays.photon_energy"]

camera_x_rays.readout_time

Time used to read out each frame on the detector

  • Units: s
  • Data Type: FLT_0D

camera_x_rays.readout_time_σ

error of cameraxrays.readout_time

  • Units: s
  • Data Type: FLT_0D

camera_x_rays.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.aperture.centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

charge_exchange.aperture.centre.phi_σ

error of charge_exchange.aperture.centre.phi

  • Units: rad
  • Data Type: FLT_0D

charge_exchange.aperture.centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.centre.r_σ

error of charge_exchange.aperture.centre.r

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.centre.z

Height

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.centre.z_σ

error of charge_exchange.aperture.centre.z

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.geometry_type

Type of geometry used to describe the surface of the detector or aperture (1:'outline', 2:'circular', 3:'rectangle'). In case of 'outline', the surface is described by an outline of point in a local coordinate system defined by a centre and three unit vectors X1, X2, X3. Note that there is some flexibility here and the data provider should choose the most convenient coordinate system for the object, respecting the definitions of (X1,X2,X3) indicated below. In case of 'circular', the surface is a circle defined by its centre, radius, and normal vector oriented towards the plasma X3. In case of 'rectangle', the surface is a rectangle defined by its centre, widths in the X1 and X2 directions, and normal vector oriented towards the plasma X3.

  • Data Type: INT_0D

charge_exchange.aperture.outline.x1

Positions along x1 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.aperture.outline.x1_σ

error of charge_exchange.aperture.outline.x1

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.aperture.outline.x2

Positions along x2 axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.aperture.outline.x1"]

charge_exchange.aperture.outline.x2_σ

error of charge_exchange.aperture.outline.x2

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.aperture.outline.x1"]

charge_exchange.aperture.radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.radius_σ

error of charge_exchange.aperture.radius

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.surface

Surface of the detector/aperture, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

charge_exchange.aperture.surface_σ

error of charge_exchange.aperture.surface

  • Units: m^2
  • Data Type: FLT_0D

charge_exchange.aperture.x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x1_unit_vector.x_σ

error of chargeexchange.aperture.x1unit_vector.x

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x1_unit_vector.y_σ

error of chargeexchange.aperture.x1unit_vector.y

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x1_unit_vector.z_σ

error of chargeexchange.aperture.x1unit_vector.z

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x1_width

Full width of the aperture in the X1 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x1_width_σ

error of chargeexchange.aperture.x1width

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_unit_vector.x_σ

error of chargeexchange.aperture.x2unit_vector.x

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_unit_vector.y_σ

error of chargeexchange.aperture.x2unit_vector.y

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_unit_vector.z_σ

error of chargeexchange.aperture.x2unit_vector.z

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_width

Full width of the aperture in the X2 direction, used only if geometry_type = 3

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x2_width_σ

error of chargeexchange.aperture.x2width

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x3_unit_vector.x_σ

error of chargeexchange.aperture.x3unit_vector.x

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x3_unit_vector.y_σ

error of chargeexchange.aperture.x3unit_vector.y

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

charge_exchange.aperture.x3_unit_vector.z_σ

error of chargeexchange.aperture.x3unit_vector.z

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.a

Mass of atom of the diagnostic neutral beam particle

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.a_σ

error of charge_exchange.channel[:].bes.a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.doppler_shift.data

Data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].bes.doppler_shift.time"]

charge_exchange.channel[:].bes.doppler_shift.data_σ

error of chargeexchange.channel[:].bes.dopplershift.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].bes.doppler_shift.time"]

charge_exchange.channel[:].bes.doppler_shift.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].bes.label

String identifying the diagnostic neutral beam particle

  • Data Type: STR_0D

charge_exchange.channel[:].bes.lorentz_shift.data

Data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].bes.lorentz_shift.time"]

charge_exchange.channel[:].bes.lorentz_shift.data_σ

error of chargeexchange.channel[:].bes.lorentzshift.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].bes.lorentz_shift.time"]

charge_exchange.channel[:].bes.lorentz_shift.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].bes.radiances.data

Data

  • Units: (photons) m^-2.s^-1.sr^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].bes.radiances.time"]

charge_exchange.channel[:].bes.radiances.data_σ

error of charge_exchange.channel[:].bes.radiances.data

  • Units: (photons) m^-2.s^-1.sr^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].bes.radiances.time"]

charge_exchange.channel[:].bes.radiances.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].bes.transition_wavelength

Unshifted wavelength of the BES transition

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.transition_wavelength_σ

error of chargeexchange.channel[:].bes.transitionwavelength

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.z_ion

Ion charge of the diagnostic neutral beam particle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.z_ion_σ

error of chargeexchange.channel[:].bes.zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.z_n

Nuclear charge of the diagnostic neutral beam particle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].bes.z_n_σ

error of chargeexchange.channel[:].bes.zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].identifier

ID of the channel

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].a

Mass of atom of the ion

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion[:].a_σ

error of charge_exchange.channel[:].ion[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion[:].label

String identifying the ion (e.g. H+, D+, T+, He+2, C+6, ...)

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].n_i_over_n_e.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].n_i_over_n_e.time"]

charge_exchange.channel[:].ion[:].n_i_over_n_e.data_σ

error of chargeexchange.channel[:].ion[:].niovern_e.data

  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].n_i_over_n_e.time"]

charge_exchange.channel[:].ion[:].n_i_over_n_e.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].ion[:].n_i_over_n_e_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].n_i_over_n_e_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].ion[:].n_i_over_n_e_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].t_i.data

Data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].t_i.time"]

charge_exchange.channel[:].ion[:].t_i.data_σ

error of chargeexchange.channel[:].ion[:].ti.data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].t_i.time"]

charge_exchange.channel[:].ion[:].t_i.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].ion[:].t_i_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].t_i_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].ion[:].t_i_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].velocity_pol.data

Data

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].velocity_pol.time"]

charge_exchange.channel[:].ion[:].velocity_pol.data_σ

error of chargeexchange.channel[:].ion[:].velocitypol.data

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].velocity_pol.time"]

charge_exchange.channel[:].ion[:].velocity_pol.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].ion[:].velocity_pol_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].velocity_pol_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].ion[:].velocity_pol_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].velocity_tor.data

Data

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].velocity_tor.time"]

charge_exchange.channel[:].ion[:].velocity_tor.data_σ

error of chargeexchange.channel[:].ion[:].velocitytor.data

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion[:].velocity_tor.time"]

charge_exchange.channel[:].ion[:].velocity_tor.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].ion[:].velocity_tor_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].velocity_tor_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].ion[:].velocity_tor_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].ion[:].z_ion

Ion charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion[:].z_ion_σ

error of chargeexchange.channel[:].ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion[:].z_n_σ

error of chargeexchange.channel[:].ion[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].a

Mass of atom of the fast ion

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].a_σ

error of chargeexchange.channel[:].ionfast[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].label

String identifying the fast ion (e.g. H+, D+, T+, He+2, C+6, ...)

  • Data Type: STR_0D

charge_exchange.channel[:].ion_fast[:].radiance.data

Data

  • Units: (photons) m^-2.s^-1.sr^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion_fast[:].radiance.time"]

charge_exchange.channel[:].ion_fast[:].radiance.data_σ

error of chargeexchange.channel[:].ionfast[:].radiance.data

  • Units: (photons) m^-2.s^-1.sr^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].ion_fast[:].radiance.time"]

charge_exchange.channel[:].ion_fast[:].radiance.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].ion_fast[:].radiance_spectral_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].ion_fast[:].radiance_spectral_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].ion_fast[:].radiance_spectral_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].ion_fast[:].transition_wavelength

Unshifted wavelength of the fast ion charge exchange transition

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].transition_wavelength_σ

error of chargeexchange.channel[:].ionfast[:].transition_wavelength

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].z_ion

Fast ion charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].z_ion_σ

error of chargeexchange.channel[:].ionfast[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].z_n

Nuclear charge of the fast ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].ion_fast[:].z_n_σ

error of chargeexchange.channel[:].ionfast[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

charge_exchange.channel[:].momentum_tor.data

Data

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].momentum_tor.time"]

charge_exchange.channel[:].momentum_tor.data_σ

error of chargeexchange.channel[:].momentumtor.data

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].momentum_tor.time"]

charge_exchange.channel[:].momentum_tor.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].momentum_tor_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].momentum_tor_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].momentum_tor_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].name

Name of the channel

  • Data Type: STR_0D

charge_exchange.channel[:].position.phi.data

Data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].position.phi.time"]

charge_exchange.channel[:].position.phi.data_σ

error of charge_exchange.channel[:].position.phi.data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].position.phi.time"]

charge_exchange.channel[:].position.phi.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].position.r.data

Data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].position.r.time"]

charge_exchange.channel[:].position.r.data_σ

error of charge_exchange.channel[:].position.r.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].position.r.time"]

charge_exchange.channel[:].position.r.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].position.z.data

Data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].position.z.time"]

charge_exchange.channel[:].position.z.data_σ

error of charge_exchange.channel[:].position.z.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].position.z.time"]

charge_exchange.channel[:].position.z.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].exposure_time

Exposure time

  • Units: s
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].exposure_time_σ

error of chargeexchange.channel[:].spectrum[:].exposuretime

  • Units: s
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].grating

Number of grating lines per unit length

  • Units: m^-1
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].grating_σ

error of charge_exchange.channel[:].spectrum[:].grating

  • Units: m^-1
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].instrument_function

Array of Gaussian widths and amplitudes which as a sum make up the instrument fuction. IF(lambda) = sum( instrumentfunction(1,i)/sqrt(2 * pi * instrumentfunction(2,i)^2 ) * exp( -lambda^2/(2 * instrumentfunction(2,i)^2) ) ),whereby sum( instrumentfunction(1,i) ) = 1

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...2", "1...N"]

charge_exchange.channel[:].spectrum[:].instrument_function_σ

error of chargeexchange.channel[:].spectrum[:].instrumentfunction

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...2", "1...N"]

charge_exchange.channel[:].spectrum[:].intensity_spectrum.data

Data

  • Units: (photoelectrons).s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].spectrum[:].intensity_spectrum.time"]

charge_exchange.channel[:].spectrum[:].intensity_spectrum.data_σ

error of chargeexchange.channel[:].spectrum[:].intensityspectrum.data

  • Units: (photoelectrons).s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].spectrum[:].intensity_spectrum.time"]

charge_exchange.channel[:].spectrum[:].intensity_spectrum.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].processed_line[:].intensity.data

Data

  • Units: (photonelectrons).s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].intensity.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].intensity.data_σ

error of chargeexchange.channel[:].spectrum[:].processedline[:].intensity.data

  • Units: (photonelectrons).s^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].intensity.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].intensity.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].processed_line[:].label

String identifying the processed spectral line: Spectroscopy notation emitting element (e.g. D I, Be IV, W I, C VI), transition - if known - between round brackets (e.g. (3-2) ) and indication type of charge exchange - if applicable - between square brackets (e.g. [ACX] or [PCX]). Example for beryllium active charge exchange line at 468.5 nm: 'Be IV (8-6) [ACX]'. Example for impact excitation tungsten line coming from the plasma edge: 'W I'

  • Data Type: STR_0D

charge_exchange.channel[:].spectrum[:].processed_line[:].radiance.data

Data

  • Units: m^-2.s^-1.sr^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].radiance.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].radiance.data_σ

error of chargeexchange.channel[:].spectrum[:].processedline[:].radiance.data

  • Units: m^-2.s^-1.sr^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].radiance.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].radiance.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].processed_line[:].shift.data

Data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].shift.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].shift.data_σ

error of chargeexchange.channel[:].spectrum[:].processedline[:].shift.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].shift.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].shift.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].processed_line[:].wavelength_central

Unshifted central wavelength of the processed spectral line

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].processed_line[:].wavelength_central_σ

error of chargeexchange.channel[:].spectrum[:].processedline[:].wavelength_central

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].processed_line[:].width.data

Data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].width.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].width.data_σ

error of chargeexchange.channel[:].spectrum[:].processedline[:].width.data

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].processed_line[:].width.time"]

charge_exchange.channel[:].spectrum[:].processed_line[:].width.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].radiance_calibration

Radiance calibration

  • Units: m^-3.sr^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].wavelengths"]

charge_exchange.channel[:].spectrum[:].radiance_calibration_σ

error of chargeexchange.channel[:].spectrum[:].radiancecalibration

  • Units: m^-3.sr^-1
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].spectrum[:].wavelengths"]

charge_exchange.channel[:].spectrum[:].radiance_calibration_date

Date of the radiance calibration (yyyymmdd)

  • Data Type: STR_0D

charge_exchange.channel[:].spectrum[:].radiance_continuum.data

Data

  • Units: m^-2.s^-1.sr^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].spectrum[:].radiance_continuum.time"]

charge_exchange.channel[:].spectrum[:].radiance_continuum.data_σ

error of chargeexchange.channel[:].spectrum[:].radiancecontinuum.data

  • Units: m^-2.s^-1.sr^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].spectrum[:].radiance_continuum.time"]

charge_exchange.channel[:].spectrum[:].radiance_continuum.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].radiance_spectral.data

Data

  • Units: (photons) m^-2.s^-1.sr^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].spectrum[:].radiance_spectral.time"]

charge_exchange.channel[:].spectrum[:].radiance_spectral.data_σ

error of chargeexchange.channel[:].spectrum[:].radiancespectral.data

  • Units: (photons) m^-2.s^-1.sr^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "charge_exchange.channel[:].spectrum[:].radiance_spectral.time"]

charge_exchange.channel[:].spectrum[:].radiance_spectral.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].slit_width

Width of the slit (placed in the object focal plane)

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].slit_width_σ

error of chargeexchange.channel[:].spectrum[:].slitwidth

  • Units: m
  • Data Type: FLT_0D

charge_exchange.channel[:].spectrum[:].wavelength_calibration_date

Date of the wavelength calibration (yyyymmdd)

  • Data Type: STR_0D

charge_exchange.channel[:].spectrum[:].wavelengths

Measured wavelengths

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].spectrum[:].wavelengths_σ

error of charge_exchange.channel[:].spectrum[:].wavelengths

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].t_i_average.data

Data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].t_i_average.time"]

charge_exchange.channel[:].t_i_average.data_σ

error of chargeexchange.channel[:].ti_average.data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].t_i_average.time"]

charge_exchange.channel[:].t_i_average.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].t_i_average_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].t_i_average_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].t_i_average_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].zeff.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].zeff.time"]

charge_exchange.channel[:].zeff.data_σ

error of charge_exchange.channel[:].zeff.data

  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].zeff.time"]

charge_exchange.channel[:].zeff.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].zeff_line_average.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].zeff_line_average.time"]

charge_exchange.channel[:].zeff_line_average.data_σ

error of chargeexchange.channel[:].zeffline_average.data

  • Data Type: FLT_1D
  • Coordinates: ["charge_exchange.channel[:].zeff_line_average.time"]

charge_exchange.channel[:].zeff_line_average.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

charge_exchange.channel[:].zeff_line_average_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].zeff_line_average_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].zeff_line_average_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.channel[:].zeff_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.channel[:].zeff_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.channel[:].zeff_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.code.commit

Unique commit reference of software

  • Data Type: STR_0D

charge_exchange.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

charge_exchange.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

charge_exchange.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

charge_exchange.code.library[:].name

Name of software

  • Data Type: STR_0D

charge_exchange.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

charge_exchange.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

charge_exchange.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

charge_exchange.code.name

Name of software generating IDS

  • Data Type: STR_0D

charge_exchange.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["charge_exchange.time"]

charge_exchange.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

charge_exchange.code.repository

URL of software repository

  • Data Type: STR_0D

charge_exchange.code.version

Unique version (tag) of software

  • Data Type: STR_0D

charge_exchange.etendue

Etendue (geometric extent) of the optical system

  • Units: m^2.str
  • Data Type: FLT_0D

charge_exchange.etendue_σ

error of charge_exchange.etendue

  • Units: m^2.str
  • Data Type: FLT_0D

charge_exchange.etendue_method.description

Verbose description

  • Data Type: STR_0D

charge_exchange.etendue_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.etendue_method.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

charge_exchange.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

charge_exchange.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

charge_exchange.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

charge_exchange.ids_properties.occurrence

N/A

  • Data Type: INT_0D

charge_exchange.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

charge_exchange.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

charge_exchange.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

charge_exchange.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

charge_exchange.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

charge_exchange.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

charge_exchange.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

charge_exchange.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

charge_exchange.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

charge_exchange.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

charge_exchange.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

charge_exchange.latency_σ

error of charge_exchange.latency

  • Units: s
  • Data Type: FLT_0D

charge_exchange.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.code.commit

Unique commit reference of software

  • Data Type: STR_0D

coils_non_axisymmetric.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

coils_non_axisymmetric.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

coils_non_axisymmetric.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

coils_non_axisymmetric.code.library[:].name

Name of software

  • Data Type: STR_0D

coils_non_axisymmetric.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

coils_non_axisymmetric.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

coils_non_axisymmetric.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

coils_non_axisymmetric.code.name

Name of software generating IDS

  • Data Type: STR_0D

coils_non_axisymmetric.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["coils_non_axisymmetric.time"]

coils_non_axisymmetric.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

coils_non_axisymmetric.code.repository

URL of software repository

  • Data Type: STR_0D

coils_non_axisymmetric.code.version

Unique version (tag) of software

  • Data Type: STR_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].area

Area of the conductor cross-section, derived from the above geometric data

  • Units: m^2
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].area_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].cross_section[:].area

  • Units: m^2
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].height

Full height of the rectangle in the binormal direction, used only if geometry_type/index = 3

  • Units: m
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].height_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].cross_section[:].height

  • Units: m
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].outline.binormal

Coordinates along the binormal axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].outline.normal"]

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].outline.binormal_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].cross_section[:].outline.binormal

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].outline.normal"]

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].outline.normal

Coordinate along the normal axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].outline.normal_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].cross_section[:].outline.normal

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].radius_inner

Inner radius of the annulus, used only if geometry_type/index = 5

  • Units: m
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].radius_inner_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].crosssection[:].radiusinner

  • Units: m
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].width

Full width of the rectangle or square in the normal direction, when geometrytype/index = 3 or 4. Diameter of the circle when geometrytype/index = 2. Outer diameter of the annulus in case geometry_type/index = 5

  • Units: m
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].cross_section[:].width_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].cross_section[:].width

  • Units: m
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].elements.centres.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.centres.phi_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.centres.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.centres.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.centres.r_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.centres.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.centres.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.centres.z_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.centres.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.end_points.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.end_points.phi_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.end_points.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.end_points.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.end_points.r_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.end_points.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.end_points.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.end_points.z_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.end_points.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.intermediate_points.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.intermediate_points.phi_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.intermediate_points.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.intermediate_points.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.intermediate_points.r_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.intermediate_points.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.intermediate_points.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.intermediate_points.z_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.intermediate_points.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.start_points.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.start_points.phi_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.start_points.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.start_points.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.start_points.r_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.start_points.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.start_points.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.start_points.z_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].elements.start_points.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].elements.types"]

coils_non_axisymmetric.coil[:].conductor[:].elements.types

Type of every element: 1: line segment, its ends are given by the start and end points; index = 2: arc of a circle; index = 3: full circle

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.coil[:].conductor[:].resistance

conductor resistance

  • Units: Ohm
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].resistance_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].resistance

  • Units: Ohm
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].conductor[:].voltage.data

Data

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].voltage.time"]

coils_non_axisymmetric.coil[:].conductor[:].voltage.data_σ

error of coilsnonaxisymmetric.coil[:].conductor[:].voltage.data

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].conductor[:].voltage.time"]

coils_non_axisymmetric.coil[:].conductor[:].voltage.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.coil[:].current.data

Data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].current.time"]

coils_non_axisymmetric.coil[:].current.data_σ

error of coilsnonaxisymmetric.coil[:].current.data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].current.time"]

coils_non_axisymmetric.coil[:].current.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.coil[:].identifier

Alphanumeric identifier of coil

  • Data Type: STR_0D

coils_non_axisymmetric.coil[:].name

Name of the coil

  • Data Type: STR_0D

coils_non_axisymmetric.coil[:].resistance

Coil resistance

  • Units: Ohm
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].resistance_σ

error of coilsnonaxisymmetric.coil[:].resistance

  • Units: Ohm
  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].turns

Number of total turns in the coil. May be a fraction when describing the coil connections.

  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].turns_σ

error of coilsnonaxisymmetric.coil[:].turns

  • Data Type: FLT_0D

coils_non_axisymmetric.coil[:].voltage.data

Data

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].voltage.time"]

coils_non_axisymmetric.coil[:].voltage.data_σ

error of coilsnonaxisymmetric.coil[:].voltage.data

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["coils_non_axisymmetric.coil[:].voltage.time"]

coils_non_axisymmetric.coil[:].voltage.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

coils_non_axisymmetric.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.occurrence

N/A

  • Data Type: INT_0D

coils_non_axisymmetric.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

coils_non_axisymmetric.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

coils_non_axisymmetric.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

coils_non_axisymmetric.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

coils_non_axisymmetric.latency

Upper bound of the delay between input command received from the RT network and actuator starting to react. Applies globally to the system described by this IDS unless specific latencies (e.g. channel-specific or antenna-specific) are provided at a deeper level in the IDS structure.

  • Units: s
  • Data Type: FLT_0D

coils_non_axisymmetric.latency_σ

error of coilsnonaxisymmetric.latency

  • Units: s
  • Data Type: FLT_0D

coils_non_axisymmetric.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.code.commit

Unique commit reference of software

  • Data Type: STR_0D

controllers.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

controllers.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

controllers.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

controllers.code.library[:].name

Name of software

  • Data Type: STR_0D

controllers.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

controllers.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

controllers.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

controllers.code.name

Name of software generating IDS

  • Data Type: STR_0D

controllers.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["controllers.time"]

controllers.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

controllers.code.repository

URL of software repository

  • Data Type: STR_0D

controllers.code.version

Unique version (tag) of software

  • Data Type: STR_0D

controllers.controllability_metrics[:].data

Array of scalar metrics in time

  • Data Type: FLT_1D

controllers.controllability_metrics[:].data_σ

error of controllers.controllability_metrics[:].data

  • Data Type: FLT_1D

controllers.controllability_metrics[:].identifier.description

Verbose description

  • Data Type: STR_0D

controllers.controllability_metrics[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

controllers.controllability_metrics[:].identifier.name

Short string identifier

  • Data Type: STR_0D

controllers.controllability_metrics[:].time

Controlability metric time

  • Units: s
  • Data Type: FLT_1D

controllers.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

controllers.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

controllers.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

controllers.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

controllers.ids_properties.occurrence

N/A

  • Data Type: INT_0D

controllers.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

controllers.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

controllers.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

controllers.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

controllers.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

controllers.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

controllers.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

controllers.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

controllers.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

controllers.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

controllers.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

controllers.linear_controller[:].controller_class

One of a known class of controllers

  • Data Type: STR_0D

controllers.linear_controller[:].description

Description of this controller

  • Data Type: STR_0D

controllers.linear_controller[:].input_names

Names of the input signals, following the SDN convention

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].inputs.data

Data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.linear_controller[:].inputs.time"]

controllers.linear_controller[:].inputs.data_σ

error of controllers.linear_controller[:].inputs.data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.linear_controller[:].inputs.time"]

controllers.linear_controller[:].inputs.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].name

Name of this controller

  • Data Type: STR_0D

controllers.linear_controller[:].output_names

Names of the output signals following the SDN convention

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].outputs.data

Data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.linear_controller[:].outputs.time"]

controllers.linear_controller[:].outputs.data_σ

error of controllers.linear_controller[:].outputs.data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.linear_controller[:].outputs.time"]

controllers.linear_controller[:].outputs.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].pid.d.data

Data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].output_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].pid.d.time"]

controllers.linear_controller[:].pid.d.data_σ

error of controllers.linear_controller[:].pid.d.data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].output_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].pid.d.time"]

controllers.linear_controller[:].pid.d.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].pid.i.data

Data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].output_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].pid.i.time"]

controllers.linear_controller[:].pid.i.data_σ

error of controllers.linear_controller[:].pid.i.data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].output_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].pid.i.time"]

controllers.linear_controller[:].pid.i.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].pid.p.data

Data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].output_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].pid.p.time"]

controllers.linear_controller[:].pid.p.data_σ

error of controllers.linear_controller[:].pid.p.data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].output_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].pid.p.time"]

controllers.linear_controller[:].pid.p.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].pid.tau.data

Data

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["controllers.linear_controller[:].pid.tau.time"]

controllers.linear_controller[:].pid.tau.data_σ

error of controllers.linear_controller[:].pid.tau.data

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["controllers.linear_controller[:].pid.tau.time"]

controllers.linear_controller[:].pid.tau.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].statespace.a.data

Data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].statespace.a.time"]

controllers.linear_controller[:].statespace.a.data_σ

error of controllers.linear_controller[:].statespace.a.data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].statespace.a.time"]

controllers.linear_controller[:].statespace.a.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].statespace.b.data

Data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].statespace.b.time"]

controllers.linear_controller[:].statespace.b.data_σ

error of controllers.linear_controller[:].statespace.b.data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].input_names", "controllers.linear_controller[:].statespace.b.time"]

controllers.linear_controller[:].statespace.b.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].statespace.c.data

Data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].output_names", "controllers.linear_controller[:].statespace.c.time"]

controllers.linear_controller[:].statespace.c.data_σ

error of controllers.linear_controller[:].statespace.c.data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].output_names", "controllers.linear_controller[:].statespace.c.time"]

controllers.linear_controller[:].statespace.c.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].statespace.d.data

Data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].output_names", "controllers.linear_controller[:].statespace.d.time"]

controllers.linear_controller[:].statespace.d.data_σ

error of controllers.linear_controller[:].statespace.d.data

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["controllers.linear_controller[:].statespace.state_names", "controllers.linear_controller[:].output_names", "controllers.linear_controller[:].statespace.d.time"]

controllers.linear_controller[:].statespace.d.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].statespace.deltat.data

Data

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["controllers.linear_controller[:].statespace.deltat.time"]

controllers.linear_controller[:].statespace.deltat.data_σ

error of controllers.linear_controller[:].statespace.deltat.data

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["controllers.linear_controller[:].statespace.deltat.time"]

controllers.linear_controller[:].statespace.deltat.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.linear_controller[:].statespace.state_names

Names of the states

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

controllers.nonlinear_controller[:].controller_class

One of a known class of controllers

  • Data Type: STR_0D

controllers.nonlinear_controller[:].description

Description of this controller

  • Data Type: STR_0D

controllers.nonlinear_controller[:].function

Method to be defined

  • Data Type: STR_0D

controllers.nonlinear_controller[:].input_names

Names of the input signals, following the SDN convention

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

controllers.nonlinear_controller[:].inputs.data

Data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.nonlinear_controller[:].inputs.time"]

controllers.nonlinear_controller[:].inputs.data_σ

error of controllers.nonlinear_controller[:].inputs.data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.nonlinear_controller[:].inputs.time"]

controllers.nonlinear_controller[:].inputs.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.nonlinear_controller[:].name

Name of this controller

  • Data Type: STR_0D

controllers.nonlinear_controller[:].output_names

Output signal names following the SDN convention

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

controllers.nonlinear_controller[:].outputs.data

Data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.nonlinear_controller[:].outputs.time"]

controllers.nonlinear_controller[:].outputs.data_σ

error of controllers.nonlinear_controller[:].outputs.data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "controllers.nonlinear_controller[:].outputs.time"]

controllers.nonlinear_controller[:].outputs.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

controllers.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].identifier.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].identifier.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].conductivity_parallel

Parallel conductivity

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].conductivity_parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].conductivityparallel

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].current_parallel_inside

Parallel current driven inside the flux surface. Cumulative surface integral of j_total

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].current_parallel_inside_σ

error of coreinstantchanges.change[:].profiles1d[:].currentparallel_inside

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.diamagnetic

Diamagnetic component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.diamagnetic_σ

error of coreinstantchanges.change[:].profiles1d[:].efield.diamagnetic

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.parallel

Parallel component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].efield.parallel

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.poloidal

Poloidal component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.poloidal_σ

error of coreinstantchanges.change[:].profiles1d[:].efield.poloidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.radial

Radial component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.radial_σ

error of coreinstantchanges.change[:].profiles1d[:].efield.radial

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.toroidal

Toroidal component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].e_field.toroidal_σ

error of coreinstantchanges.change[:].profiles1d[:].efield.toroidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.collisionality_norm

Collisionality normalised to the bounce frequency

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.collisionality_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.collisionalitynorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_σ

error of coreinstantchanges.change[:].profiles_1d[:].electrons.density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fast_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.chi_squared_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfit.chi_squared

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.reconstructed_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfit.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.time_measurement_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfit.time_measurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.time_measurement_width_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfit.timemeasurementwidth

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.weight_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densityfit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.densitythermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.density_validity

Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].electrons.pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.pressure_σ

error of coreinstantchanges.change[:].profiles_1d[:].electrons.pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.pressure_fast_parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.pressurefast_parallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.pressure_fast_perpendicular_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.pressurefast_perpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.pressure_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.pressurethermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_σ

error of coreinstantchanges.change[:].profiles_1d[:].electrons.temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.chi_squared_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.temperaturefit.chi_squared

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.temperaturefit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.reconstructed_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.temperaturefit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.temperaturefit.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.time_measurement_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.temperaturefit.time_measurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.time_measurement_width_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.temperaturefit.timemeasurementwidth

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.weight_σ

error of coreinstantchanges.change[:].profiles1d[:].electrons.temperaturefit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].electrons.temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].electrons.temperature_validity

Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.area_σ

error of coreinstantchanges.change[:].profiles_1d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.psi_σ

error of coreinstantchanges.change[:].profiles_1d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].grid.psi_boundary_σ

error of coreinstantchanges.change[:].profiles1d[:].grid.psiboundary

  • Units: Wb
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].grid.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].grid.psi_magnetic_axis_σ

error of coreinstantchanges.change[:].profiles1d[:].grid.psimagnetic_axis

  • Units: Wb
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].grid.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.rho_pol_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].grid.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_σ

error of coreinstantchanges.change[:].profiles1d[:].grid.rhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].grid.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].grid.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.surface_σ

error of coreinstantchanges.change[:].profiles_1d[:].grid.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].grid.volume_σ

error of coreinstantchanges.change[:].profiles_1d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density

Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fast

Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fast_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.chi_squared_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfit.chi_squared

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.reconstructed_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfit.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.time_measurement_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfit.time_measurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.time_measurement_width_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfit.timemeasurementwidth

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.weight_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densityfit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_thermal

Density (thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].densitythermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].density_validity

Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].element[:].a_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].element[:].z_n_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure

Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure_fast_parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].pressurefast_parallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure_fast_perpendicular_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].pressurefast_perpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].pressure_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].pressurethermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken) (average over charge states when multiple charge states are considered)

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].rotation_frequency_tor_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].rotationfrequency_tor

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].state[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fast_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.chi_squared_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfit.chi_squared

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.reconstructed_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfit.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.time_measurement_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfit.time_measurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.time_measurement_width_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfit.timemeasurementwidth

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.weight_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densityfit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].density_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].densitythermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].ionisation_potential

Cumulative and average ionisation potential to reach a given bundle. Defined as sum (xz* (sum of Epot from z'=0 to z-1)), where Epot is the ionisation potential of ion Xz’+, and xz is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.

  • Units: eV
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].ionisation_potential_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].ionisationpotential

  • Units: eV
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].label

String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].state[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure_fast_parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].pressurefast_parallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure_fast_perpendicular_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].pressurefast_perpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].pressure_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].pressurethermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken)

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].rotation_frequency_tor_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].rotationfrequency_tor

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].temperature_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].state[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].vibrational_level_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_average

Average Z of the charge state bundle, volume averaged over the plasma radius (equal to zmin if no bundle), = sum (Z*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_average_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].zaverage

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_average_1d

Average charge profile of the charge state bundle (equal to zmin if no bundle), = sum (Z*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_average_1d_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].zaverage_1d

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_average_square_1d

Average square charge profile of the charge state bundle (equal to zmin squared if no bundle), = sum (Z^2*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_average_square_1d_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].zaveragesquare1d

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_max_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_min

Minimum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_min_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_square_average

Average Z square of the charge state bundle, volume averaged over the plasma radius (equal to zmin squared if no bundle), = sum (Z^2*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].state[:].z_square_average_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].state[:].zsquare_average

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature

Temperature (average over charge states when multiple charge states are considered)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.chi_squared_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].temperaturefit.chi_squared

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].temperaturefit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.reconstructed_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].temperaturefit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].temperaturefit.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.time_measurement_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].temperaturefit.time_measurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.time_measurement_width_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].temperaturefit.timemeasurementwidth

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.weight_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].temperaturefit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].ion[:].temperature_validity

Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.diamagnetic

Diamagnetic component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.diamagnetic_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].velocity.diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.parallel

Parallel component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.parallel_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].velocity.parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.poloidal

Poloidal component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.poloidal_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].velocity.poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.radial

Radial component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.radial_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].velocity.radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.toroidal

Toroidal component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].velocity.toroidal_σ

error of coreinstantchanges.change[:].profiles_1d[:].ion[:].velocity.toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed), volume averaged over plasma radius

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].z_ion_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].ion[:].z_ion_1d

Average charge of the ion species (sum of states charge weighted by state density and divided by ion density)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].z_ion_1d_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].zion_1d

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].z_ion_square_1d

Average square charge of the ion species (sum of states square charge weighted by state density and divided by ion density)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].ion[:].z_ion_square_1d_σ

error of coreinstantchanges.change[:].profiles1d[:].ion[:].zionsquare1d

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_bootstrap

Bootstrap current density = average(JBootstrap.B) / B0, where B0 = CoreProfiles/VacuumToroidalField/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_bootstrap_σ

error of coreinstantchanges.change[:].profiles1d[:].jbootstrap

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_non_inductive

Non-inductive (includes bootstrap) parallel current density = average(jni.B) / B0, where B0 = CoreProfiles/VacuumToroidal_Field/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_non_inductive_σ

error of coreinstantchanges.change[:].profiles1d[:].jnon_inductive

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_ohmic

Ohmic parallel current density = average(JOhmic.B) / B0, where B0 = CoreProfiles/VacuumToroidalField/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_ohmic_σ

error of coreinstantchanges.change[:].profiles1d[:].johmic

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_tor

Total toroidal current density = average(J_Tor/R) / average(1/R)

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_tor_σ

error of coreinstantchanges.change[:].profiles1d[:].jtor

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_total

Total parallel current density = average(jtot.B) / B0, where B0 = CoreProfiles/VacuumToroidal_Field/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].j_total_σ

error of coreinstantchanges.change[:].profiles1d[:].jtotal

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].magnetic_shear

Magnetic shear, defined as rhotor/q . dq/drhotor

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].magnetic_shear_σ

error of coreinstantchanges.change[:].profiles1d[:].magneticshear

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].momentum_tor

Total plasma toroidal momentum, summed over ion species and electrons weighted by their density and major radius, i.e. sumoverspecies(nRm*Vphi)

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].momentum_tor_σ

error of coreinstantchanges.change[:].profiles1d[:].momentumtor

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].n_i_thermal_total

Total ion thermal density (sum over species and charge states)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].n_i_thermal_total_σ

error of coreinstantchanges.change[:].profiles1d[:].nithermaltotal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].n_i_total_over_n_e

Ratio of total ion density (sum over species and charge states) over electron density. (thermal+non-thermal)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].n_i_total_over_n_e_σ

error of coreinstantchanges.change[:].profiles1d[:].nitotaloverne

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].density

Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].density_σ

error of coreinstantchanges.change[:].profiles_1d[:].neutral[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].density_fast

Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].density_fast_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].densityfast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].density_thermal

Density (thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].density_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].densitythermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].element[:].a_σ

error of coreinstantchanges.change[:].profiles_1d[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].element[:].z_n_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].label

String identifying the species (e.g. H, D, T, He, C, D2, DT, CD4, ...)

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].multiple_states_flag

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure

Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure_σ

error of coreinstantchanges.change[:].profiles_1d[:].neutral[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure_fast_parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].pressurefast_parallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure_fast_perpendicular_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].pressurefast_perpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].pressure_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].pressurethermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].density_σ

error of coreinstantchanges.change[:].profiles_1d[:].neutral[:].state[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].density_fast_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].state[:].densityfast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].density_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].state[:].densitythermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].neutral_type.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].neutral_type.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure_σ

error of coreinstantchanges.change[:].profiles_1d[:].neutral[:].state[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure_fast_parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].state[:].pressurefast_parallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure_fast_perpendicular_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].state[:].pressurefast_perpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].pressure_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].state[:].pressurethermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].temperature_σ

error of coreinstantchanges.change[:].profiles_1d[:].neutral[:].state[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].vibrational_level_σ

error of coreinstantchanges.change[:].profiles1d[:].neutral[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].neutral[:].temperature

Temperature (average over charge states when multiple charge states are considered)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].neutral[:].temperature_σ

error of coreinstantchanges.change[:].profiles_1d[:].neutral[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].phi_potential

Electrostatic potential, averaged on the magnetic flux surface

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].phi_potential_σ

error of coreinstantchanges.change[:].profiles1d[:].phipotential

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_ion_total

Total (sum over ion species) thermal ion pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_ion_total_σ

error of coreinstantchanges.change[:].profiles1d[:].pressureion_total

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_parallel

Total parallel pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_parallel_σ

error of coreinstantchanges.change[:].profiles1d[:].pressureparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_perpendicular

Total perpendicular pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_perpendicular_σ

error of coreinstantchanges.change[:].profiles1d[:].pressureperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_thermal

Thermal pressure (electrons+ions)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].pressure_thermal_σ

error of coreinstantchanges.change[:].profiles1d[:].pressurethermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].q

Safety factor (IMAS uses COCOS=11: only positive when toroidal current and magnetic field are in same direction)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].q_σ

error of coreinstantchanges.change[:].profiles_1d[:].q

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].rotation_frequency_tor_sonic

Derivative of the flux surface averaged electrostatic potential with respect to the poloidal flux, multiplied by -1. This quantity is the toroidal angular rotation frequency due to the ExB drift, introduced in formula (43) of Hinton and Wong, Physics of Fluids 3082 (1985), also referred to as sonic flow in regimes in which the toroidal velocity is dominant over the poloidal velocity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].rotation_frequency_tor_sonic_σ

error of coreinstantchanges.change[:].profiles1d[:].rotationfrequencytorsonic

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].t_i_average

Ion temperature (averaged on charge states and ion species)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_σ

error of coreinstantchanges.change[:].profiles1d[:].ti_average

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.chi_squared_σ

error of coreinstantchanges.change[:].profiles1d[:].tiaveragefit.chi_squared

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured_σ

error of coreinstantchanges.change[:].profiles1d[:].tiaveragefit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.reconstructed_σ

error of coreinstantchanges.change[:].profiles1d[:].tiaveragefit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].tiaveragefit.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.time_measurement_σ

error of coreinstantchanges.change[:].profiles1d[:].tiaveragefit.time_measurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.time_measurement_width_σ

error of coreinstantchanges.change[:].profiles1d[:].tiaveragefit.timemeasurementwidth

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.weight_σ

error of coreinstantchanges.change[:].profiles1d[:].tiaveragefit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].t_i_average_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

core_instant_changes.change[:].profiles_1d[:].zeff

Effective charge

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].zeff_σ

error of coreinstantchanges.change[:].profiles_1d[:].zeff

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].grid.rho_tor_norm"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.chi_squared_σ

error of coreinstantchanges.change[:].profiles1d[:].zefffit.chi_squared

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured

Measured values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured_σ

error of coreinstantchanges.change[:].profiles1d[:].zefffit.measured

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].zeff_fit.reconstructed

Value reconstructed from the fit

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.reconstructed_σ

error of coreinstantchanges.change[:].profiles1d[:].zefffit.reconstructed

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.rho_tor_norm_σ

error of coreinstantchanges.change[:].profiles1d[:].zefffit.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.time_measurement_σ

error of coreinstantchanges.change[:].profiles1d[:].zefffit.time_measurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].zeff_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.change[:].profiles_1d[:].zeff_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.change[:].profiles_1d[:].zeff_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.time_measurement_width_σ

error of coreinstantchanges.change[:].profiles1d[:].zefffit.timemeasurementwidth

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.change[:].profiles_1d[:].zeff_fit.weight_σ

error of coreinstantchanges.change[:].profiles1d[:].zefffit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.change[:].profiles_1d[:].zeff_fit.measured"]

core_instant_changes.code.commit

Unique commit reference of software

  • Data Type: STR_0D

core_instant_changes.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_instant_changes.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_instant_changes.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_instant_changes.code.library[:].name

Name of software

  • Data Type: STR_0D

core_instant_changes.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

core_instant_changes.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_instant_changes.code.name

Name of software generating IDS

  • Data Type: STR_0D

core_instant_changes.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["core_instant_changes.time"]

core_instant_changes.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.code.repository

URL of software repository

  • Data Type: STR_0D

core_instant_changes.code.version

Unique version (tag) of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

core_instant_changes.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

core_instant_changes.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

core_instant_changes.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

core_instant_changes.ids_properties.occurrence

N/A

  • Data Type: INT_0D

core_instant_changes.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

core_instant_changes.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_instant_changes.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

core_instant_changes.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_instant_changes.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

core_instant_changes.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

core_instant_changes.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

core_instant_changes.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

core_instant_changes.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

core_instant_changes.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

core_instant_changes.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_instant_changes.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.time"]

core_instant_changes.vacuum_toroidal_field.b0_σ

error of coreinstantchanges.vacuumtoroidalfield.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_instant_changes.time"]

core_instant_changes.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

core_instant_changes.vacuum_toroidal_field.r0_σ

error of coreinstantchanges.vacuumtoroidalfield.r0

  • Units: m
  • Data Type: FLT_0D

core_profiles.code.commit

Unique commit reference of software

  • Data Type: STR_0D

core_profiles.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_profiles.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_profiles.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_profiles.code.library[:].name

Name of software

  • Data Type: STR_0D

core_profiles.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_profiles.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

core_profiles.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_profiles.code.name

Name of software generating IDS

  • Data Type: STR_0D

core_profiles.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_profiles.code.repository

URL of software repository

  • Data Type: STR_0D

core_profiles.code.version

Unique version (tag) of software

  • Data Type: STR_0D

core_profiles.covariance.data

Covariance matrix

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.covariance.rows_uri", "core_profiles.covariance.rows_uri"]

core_profiles.covariance.data_σ

error of core_profiles.covariance.data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.covariance.rows_uri", "core_profiles.covariance.rows_uri"]

core_profiles.covariance.description

Description of this covariance matrix

  • Data Type: STR_0D

core_profiles.covariance.rows_uri

List of URIs corresponding to the rows (1st dimension) of the covariance matrix. If not all indices of a given node are used, they must be listed explicitly e.g. rowsuri(i) = pfactive:1/coil(i) will refer to a list of indices of the occurrence 1 of the pfactive IDS of this data entry. If the rows correspond to all indices of a given vector it is sufficient to give a single URI where this vector is denoted using the (:) implicit notation, e.g. rowsuri(1) = /gridggd(3)/gridsubset(2)/elements(:).

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

core_profiles.global_quantities.beta_pol

Poloidal beta. Defined as betap = 4 int(p dV) / [R0 * mu0 * Ip^2]

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.beta_pol_σ

error of coreprofiles.globalquantities.beta_pol

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.beta_tor

Toroidal beta, defined as the volume-averaged total perpendicular pressure divided by (B0^2/(2*mu0)), i.e. beta_toroidal = 2 mu0 int(p dV) / V / B0^2

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.beta_tor_σ

error of coreprofiles.globalquantities.beta_tor

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.beta_tor_norm

Normalised toroidal beta, defined as 100 * beta_tor * a[m] * B0 [T] / ip [MA]

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.beta_tor_norm_σ

error of coreprofiles.globalquantities.betatornorm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.current_bootstrap

Bootstrap current (toroidal component). Positive sign means anti-clockwise when viewed from above.

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.current_bootstrap_σ

error of coreprofiles.globalquantities.current_bootstrap

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.current_non_inductive

Total non-inductive current (toroidal component). Positive sign means anti-clockwise when viewed from above.

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.current_non_inductive_σ

error of coreprofiles.globalquantities.currentnoninductive

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.current_ohmic

Ohmic current (toroidal component). Positive sign means anti-clockwise when viewed from above.

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.current_ohmic_σ

error of coreprofiles.globalquantities.current_ohmic

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ejima

Ejima coefficient : resistive psi losses divided by (mu0RIp). See S. Ejima et al, Nuclear Fusion, Vol.22, No.10 (1982), 1313

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ejima_σ

error of coreprofiles.globalquantities.ejima

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.energy_diamagnetic

Plasma energy content = 3/2 * integral over the plasma volume of the total perpendicular pressure

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.energy_diamagnetic_σ

error of coreprofiles.globalquantities.energy_diamagnetic

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ion[:].n_i_volume_average

Volume averaged density of this ion species (averaged over the plasma volume up to the LCFS)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ion[:].n_i_volume_average_σ

error of coreprofiles.globalquantities.ion[:].nivolume_average

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ion[:].t_i_volume_average

Volume averaged temperature of this ion species (averaged over the plasma volume up to the LCFS)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ion[:].t_i_volume_average_σ

error of coreprofiles.globalquantities.ion[:].tivolume_average

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ion_time_slice

Time slice of the profiles1d array used to define the ion composition of the globalquantities/ion array.

  • Units: s
  • Data Type: FLT_0D

core_profiles.global_quantities.ion_time_slice_σ

error of coreprofiles.globalquantities.iontimeslice

  • Units: s
  • Data Type: FLT_0D

core_profiles.global_quantities.ip

Total plasma current (toroidal component). Positive sign means anti-clockwise when viewed from above.

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.ip_σ

error of coreprofiles.globalquantities.ip

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.li_3

Internal inductance. The li3 definition is used, i.e. li3 = 2/R0/mu0^2/Ip^2 * int(Bp^2 dV).

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.li_3_σ

error of coreprofiles.globalquantities.li_3

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.n_e_volume_average

Volume averaged electron density (average over the plasma volume up to the LCFS)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.n_e_volume_average_σ

error of coreprofiles.globalquantities.nevolume_average

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.polarized_fuel_fraction

N/A

  • Data Type: FLT_0D

core_profiles.global_quantities.polarized_fuel_fraction_σ

error of coreprofiles.globalquantities.polarizedfuelfraction

  • Data Type: FLT_0D

core_profiles.global_quantities.resistive_psi_losses

Resistive part of the poloidal flux losses, defined as the volume-averaged scalar product of the electric field and the ohmic current density, normalized by the plasma current and integrated in time from the beginning of the plasma discharge: int ( (int(Efieldtor.johmtor) dV) / Ip ) dt)

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.resistive_psi_losses_σ

error of coreprofiles.globalquantities.resistivepsilosses

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.t_e_peaking

Electron temperature peaking factor, defined as the Te value at the magnetic axis divided by the volume averaged Te (average over the plasma volume up to the LCFS)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.t_e_peaking_σ

error of coreprofiles.globalquantities.tepeaking

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.t_e_volume_average

Volume averaged electron temperature (average over the plasma volume up to the LCFS)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.t_e_volume_average_σ

error of coreprofiles.globalquantities.tevolume_average

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.t_i_average_peaking

Ion temperature (averaged over ion species and states) peaking factor, defined as the Ti value at the magnetic axis divided by the volume averaged Ti (average over the plasma volume up to the LCFS)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.t_i_average_peaking_σ

error of coreprofiles.globalquantities.tiaverage_peaking

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.v_loop

LCFS loop voltage (positive value drives positive ohmic current that flows anti-clockwise when viewed from above)

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.v_loop_σ

error of coreprofiles.globalquantities.v_loop

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.z_eff_resistive

Volume average plasma effective charge, estimated from the flux consumption in the ohmic phase

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.global_quantities.z_eff_resistive_σ

error of coreprofiles.globalquantities.zeffresistive

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

core_profiles.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

core_profiles.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

core_profiles.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

core_profiles.ids_properties.occurrence

N/A

  • Data Type: INT_0D

core_profiles.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

core_profiles.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

core_profiles.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_profiles.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

core_profiles.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

core_profiles.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

core_profiles.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

core_profiles.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

core_profiles.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

core_profiles.profiles_1d[:].conductivity_parallel

Parallel conductivity

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].conductivity_parallel_σ

error of coreprofiles.profiles1d[:].conductivity_parallel

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].current_parallel_inside

Parallel current driven inside the flux surface. Cumulative surface integral of j_total

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].current_parallel_inside_σ

error of coreprofiles.profiles1d[:].currentparallelinside

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.diamagnetic

Diamagnetic component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.diamagnetic_σ

error of coreprofiles.profiles1d[:].e_field.diamagnetic

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.parallel

Parallel component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.parallel_σ

error of coreprofiles.profiles1d[:].e_field.parallel

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.poloidal

Poloidal component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.poloidal_σ

error of coreprofiles.profiles1d[:].e_field.poloidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.radial

Radial component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.radial_σ

error of coreprofiles.profiles1d[:].e_field.radial

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.toroidal

Toroidal component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].e_field.toroidal_σ

error of coreprofiles.profiles1d[:].e_field.toroidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.collisionality_norm

Collisionality normalised to the bounce frequency

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.collisionality_norm_σ

error of coreprofiles.profiles1d[:].electrons.collisionality_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.density_σ

error of coreprofiles.profiles1d[:].electrons.density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.density_fast_σ

error of coreprofiles.profiles1d[:].electrons.density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.chi_squared_σ

error of coreprofiles.profiles1d[:].electrons.densityfit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].electrons.density_fit.measured_σ

error of coreprofiles.profiles1d[:].electrons.density_fit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].electrons.density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_profiles.profiles_1d[:].electrons.density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.reconstructed_σ

error of coreprofiles.profiles1d[:].electrons.density_fit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].electrons.densityfit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.time_measurement_σ

error of coreprofiles.profiles1d[:].electrons.densityfit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].electrons.density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].electrons.density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].electrons.density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.time_measurement_width_σ

error of coreprofiles.profiles1d[:].electrons.densityfit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_fit.weight_σ

error of coreprofiles.profiles1d[:].electrons.density_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.density_fit.measured"]

core_profiles.profiles_1d[:].electrons.density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.density_thermal_σ

error of coreprofiles.profiles1d[:].electrons.density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.density_validity

Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_profiles.profiles_1d[:].electrons.pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.pressure_σ

error of coreprofiles.profiles1d[:].electrons.pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.pressure_fast_parallel_σ

error of coreprofiles.profiles1d[:].electrons.pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.pressure_fast_perpendicular_σ

error of coreprofiles.profiles1d[:].electrons.pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.pressure_thermal_σ

error of coreprofiles.profiles1d[:].electrons.pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.temperature_σ

error of coreprofiles.profiles1d[:].electrons.temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].electrons.temperature_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.chi_squared_σ

error of coreprofiles.profiles1d[:].electrons.temperaturefit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].electrons.temperature_fit.measured_σ

error of coreprofiles.profiles1d[:].electrons.temperature_fit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].electrons.temperature_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_profiles.profiles_1d[:].electrons.temperature_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.reconstructed_σ

error of coreprofiles.profiles1d[:].electrons.temperature_fit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].electrons.temperaturefit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_σ

error of coreprofiles.profiles1d[:].electrons.temperaturefit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_width_σ

error of coreprofiles.profiles1d[:].electrons.temperaturefit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_fit.weight_σ

error of coreprofiles.profiles1d[:].electrons.temperature_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

core_profiles.profiles_1d[:].electrons.temperature_validity

Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_profiles.profiles_1d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.area_σ

error of coreprofiles.profiles1d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.psi_σ

error of coreprofiles.profiles1d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].grid.psi_boundary_σ

error of coreprofiles.profiles1d[:].grid.psi_boundary

  • Units: Wb
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].grid.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].grid.psi_magnetic_axis_σ

error of coreprofiles.profiles1d[:].grid.psimagneticaxis

  • Units: Wb
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].grid.psi_norm

Normalized poloidal magnetic flux

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.psi_norm_σ

error of coreprofiles.profiles1d[:].grid.psi_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.rho_pol_norm_σ

error of coreprofiles.profiles1d[:].grid.rhopolnorm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.rho_tor_σ

error of coreprofiles.profiles1d[:].grid.rho_tor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].grid.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].grid.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].grid.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.surface_σ

error of coreprofiles.profiles1d[:].grid.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].grid.volume_σ

error of coreprofiles.profiles1d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].density

Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].density_σ

error of coreprofiles.profiles1d[:].ion[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].density_fast

Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].density_fast_σ

error of coreprofiles.profiles1d[:].ion[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.chi_squared_σ

error of coreprofiles.profiles1d[:].ion[:].densityfit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].ion[:].density_fit.measured_σ

error of coreprofiles.profiles1d[:].ion[:].density_fit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].ion[:].density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.reconstructed_σ

error of coreprofiles.profiles1d[:].ion[:].density_fit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].ion[:].densityfit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_σ

error of coreprofiles.profiles1d[:].ion[:].densityfit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_width_σ

error of coreprofiles.profiles1d[:].ion[:].densityfit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_fit.weight_σ

error of coreprofiles.profiles1d[:].ion[:].density_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].density_thermal

Density (thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].density_thermal_σ

error of coreprofiles.profiles1d[:].ion[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].density_validity

Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].element[:].a_σ

error of coreprofiles.profiles1d[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].element[:].z_n_σ

error of coreprofiles.profiles1d[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].pressure

Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].pressure_σ

error of coreprofiles.profiles1d[:].ion[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].pressure_fast_parallel_σ

error of coreprofiles.profiles1d[:].ion[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].pressure_fast_perpendicular_σ

error of coreprofiles.profiles1d[:].ion[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].pressure_thermal_σ

error of coreprofiles.profiles1d[:].ion[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken) (average over charge states when multiple charge states are considered)

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].rotation_frequency_tor_σ

error of coreprofiles.profiles1d[:].ion[:].rotationfrequencytor

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].density_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fast_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.chi_squared_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].densityfit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].density_fit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.reconstructed_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].density_fit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].densityfit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].densityfit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_width_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].densityfit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_fit.weight_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].density_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

core_profiles.profiles_1d[:].ion[:].state[:].density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].density_thermal_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].state[:].ionisation_potential

Cumulative and average ionisation potential to reach a given bundle. Defined as sum (xz* (sum of Epot from z'=0 to z-1)), where Epot is the ionisation potential of ion Xz’+, and xz is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.

  • Units: eV
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].ionisation_potential_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].ionisation_potential

  • Units: eV
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].label

String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].state[:].pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].pressure_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_parallel_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_perpendicular_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].pressure_thermal_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken)

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].rotation_frequency_tor_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].rotationfrequencytor

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].temperature_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].vibrational_level_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_average

Average Z of the charge state bundle, volume averaged over the plasma radius (equal to zmin if no bundle), = sum (Z*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_average_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].z_average

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_average_1d

Average charge profile of the charge state bundle (equal to zmin if no bundle), = sum (Z*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].z_average_1d_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].zaverage1d

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].z_average_square_1d

Average square charge profile of the charge state bundle (equal to zmin squared if no bundle), = sum (Z^2*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].z_average_square_1d_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].zaveragesquare_1d

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_max_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_min

Minimum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_min_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_square_average

Average Z square of the charge state bundle, volume averaged over the plasma radius (equal to zmin squared if no bundle), = sum (Z^2*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].state[:].z_square_average_σ

error of coreprofiles.profiles1d[:].ion[:].state[:].zsquareaverage

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].temperature

Temperature (average over charge states when multiple charge states are considered)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].temperature_σ

error of coreprofiles.profiles1d[:].ion[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.chi_squared_σ

error of coreprofiles.profiles1d[:].ion[:].temperaturefit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.measured_σ

error of coreprofiles.profiles1d[:].ion[:].temperature_fit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].temperature_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.reconstructed_σ

error of coreprofiles.profiles1d[:].ion[:].temperature_fit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].ion[:].temperaturefit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_σ

error of coreprofiles.profiles1d[:].ion[:].temperaturefit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_width_σ

error of coreprofiles.profiles1d[:].ion[:].temperaturefit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_fit.weight_σ

error of coreprofiles.profiles1d[:].ion[:].temperature_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

core_profiles.profiles_1d[:].ion[:].temperature_validity

Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

core_profiles.profiles_1d[:].ion[:].velocity.diamagnetic

Diamagnetic component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.diamagnetic_σ

error of coreprofiles.profiles1d[:].ion[:].velocity.diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.parallel

Parallel component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.parallel_σ

error of coreprofiles.profiles1d[:].ion[:].velocity.parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.poloidal

Poloidal component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.poloidal_σ

error of coreprofiles.profiles1d[:].ion[:].velocity.poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.radial

Radial component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.radial_σ

error of coreprofiles.profiles1d[:].ion[:].velocity.radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.toroidal

Toroidal component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].velocity.toroidal_σ

error of coreprofiles.profiles1d[:].ion[:].velocity.toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed), volume averaged over plasma radius

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].z_ion_σ

error of coreprofiles.profiles1d[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].ion[:].z_ion_1d

Average charge of the ion species (sum of states charge weighted by state density and divided by ion density)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].z_ion_1d_σ

error of coreprofiles.profiles1d[:].ion[:].zion1d

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].z_ion_square_1d

Average square charge of the ion species (sum of states square charge weighted by state density and divided by ion density)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].ion[:].z_ion_square_1d_σ

error of coreprofiles.profiles1d[:].ion[:].zionsquare_1d

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_bootstrap

Bootstrap current density = average(JBootstrap.B) / B0, where B0 = CoreProfiles/VacuumToroidalField/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_bootstrap_σ

error of coreprofiles.profiles1d[:].j_bootstrap

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_non_inductive

Non-inductive (includes bootstrap) parallel current density = average(jni.B) / B0, where B0 = CoreProfiles/VacuumToroidal_Field/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_non_inductive_σ

error of coreprofiles.profiles1d[:].jnoninductive

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_ohmic

Ohmic parallel current density = average(JOhmic.B) / B0, where B0 = CoreProfiles/VacuumToroidalField/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_ohmic_σ

error of coreprofiles.profiles1d[:].j_ohmic

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_tor

Total toroidal current density = average(J_Tor/R) / average(1/R)

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_tor_σ

error of coreprofiles.profiles1d[:].j_tor

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_total

Total parallel current density = average(jtot.B) / B0, where B0 = CoreProfiles/VacuumToroidal_Field/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].j_total_σ

error of coreprofiles.profiles1d[:].j_total

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].magnetic_shear

Magnetic shear, defined as rhotor/q . dq/drhotor

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].magnetic_shear_σ

error of coreprofiles.profiles1d[:].magnetic_shear

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].momentum_tor

Total plasma toroidal momentum, summed over ion species and electrons weighted by their density and major radius, i.e. sumoverspecies(nRm*Vphi)

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].momentum_tor_σ

error of coreprofiles.profiles1d[:].momentum_tor

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].n_i_thermal_total

Total ion thermal density (sum over species and charge states)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].n_i_thermal_total_σ

error of coreprofiles.profiles1d[:].nithermal_total

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].n_i_total_over_n_e

Ratio of total ion density (sum over species and charge states) over electron density. (thermal+non-thermal)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].n_i_total_over_n_e_σ

error of coreprofiles.profiles1d[:].nitotalovern_e

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].density

Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].density_σ

error of coreprofiles.profiles1d[:].neutral[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].density_fast

Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].density_fast_σ

error of coreprofiles.profiles1d[:].neutral[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].density_thermal

Density (thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].density_thermal_σ

error of coreprofiles.profiles1d[:].neutral[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].neutral[:].element[:].a_σ

error of coreprofiles.profiles1d[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_profiles.profiles_1d[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].neutral[:].element[:].z_n_σ

error of coreprofiles.profiles1d[:].neutral[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

core_profiles.profiles_1d[:].neutral[:].label

String identifying the species (e.g. H, D, T, He, C, D2, DT, CD4, ...)

  • Data Type: STR_0D

core_profiles.profiles_1d[:].neutral[:].multiple_states_flag

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

core_profiles.profiles_1d[:].neutral[:].pressure

Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].pressure_σ

error of coreprofiles.profiles1d[:].neutral[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].pressure_fast_parallel_σ

error of coreprofiles.profiles1d[:].neutral[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].pressure_fast_perpendicular_σ

error of coreprofiles.profiles1d[:].neutral[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].pressure_thermal_σ

error of coreprofiles.profiles1d[:].neutral[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].density_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].density_fast_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].density_thermal_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_profiles.profiles_1d[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

core_profiles.profiles_1d[:].neutral[:].state[:].neutral_type.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].neutral[:].state[:].neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].neutral[:].state[:].neutral_type.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].neutral[:].state[:].pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].pressure_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_parallel_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_perpendicular_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].pressure_thermal_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].temperature_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].neutral[:].state[:].vibrational_level_σ

error of coreprofiles.profiles1d[:].neutral[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_profiles.profiles_1d[:].neutral[:].temperature

Temperature (average over charge states when multiple charge states are considered)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].neutral[:].temperature_σ

error of coreprofiles.profiles1d[:].neutral[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].phi_potential

Electrostatic potential, averaged on the magnetic flux surface

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].phi_potential_σ

error of coreprofiles.profiles1d[:].phi_potential

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure

Total pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_σ

error of coreprofiles.profiles1d[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_ion_total

Total (sum over ion species) thermal ion pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_ion_total_σ

error of coreprofiles.profiles1d[:].pressureiontotal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_parallel

Total parallel pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_parallel_σ

error of coreprofiles.profiles1d[:].pressure_parallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_perpendicular

Total perpendicular pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_perpendicular_σ

error of coreprofiles.profiles1d[:].pressure_perpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_thermal

Thermal pressure (electrons+ions)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].pressure_thermal_σ

error of coreprofiles.profiles1d[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].q

Safety factor (IMAS uses COCOS=11: only positive when toroidal current and magnetic field are in same direction)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].q_σ

error of coreprofiles.profiles1d[:].q

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].rotation_frequency_tor_sonic

Derivative of the flux surface averaged electrostatic potential with respect to the poloidal flux, multiplied by -1. This quantity is the toroidal angular rotation frequency due to the ExB drift, introduced in formula (43) of Hinton and Wong, Physics of Fluids 3082 (1985), also referred to as sonic flow in regimes in which the toroidal velocity is dominant over the poloidal velocity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].rotation_frequency_tor_sonic_σ

error of coreprofiles.profiles1d[:].rotationfrequencytor_sonic

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].t_i_average

Ion temperature (averaged on charge states and ion species)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].t_i_average_σ

error of coreprofiles.profiles1d[:].tiaverage

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].t_i_average_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.chi_squared_σ

error of coreprofiles.profiles1d[:].tiaveragefit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].t_i_average_fit.measured_σ

error of coreprofiles.profiles1d[:].tiaverage_fit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].t_i_average_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_profiles.profiles_1d[:].t_i_average_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.reconstructed_σ

error of coreprofiles.profiles1d[:].tiaverage_fit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].tiaveragefit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.time_measurement_σ

error of coreprofiles.profiles1d[:].tiaveragefit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].t_i_average_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].t_i_average_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].t_i_average_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.time_measurement_width_σ

error of coreprofiles.profiles1d[:].tiaveragefit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].t_i_average_fit.weight_σ

error of coreprofiles.profiles1d[:].tiaverage_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].t_i_average_fit.measured"]

core_profiles.profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

core_profiles.profiles_1d[:].zeff

Effective charge

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].zeff_σ

error of coreprofiles.profiles1d[:].zeff

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].grid.rho_tor_norm"]

core_profiles.profiles_1d[:].zeff_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.chi_squared_σ

error of coreprofiles.profiles1d[:].zefffit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.measured

Measured values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].zeff_fit.measured_σ

error of coreprofiles.profiles1d[:].zeff_fit.measured

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_1d[:].zeff_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

core_profiles.profiles_1d[:].zeff_fit.reconstructed

Value reconstructed from the fit

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.reconstructed_σ

error of coreprofiles.profiles1d[:].zeff_fit.reconstructed

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.rho_tor_norm_σ

error of coreprofiles.profiles1d[:].zefffit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.time_measurement_σ

error of coreprofiles.profiles1d[:].zefffit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_1d[:].zeff_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_1d[:].zeff_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_1d[:].zeff_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.time_measurement_width_σ

error of coreprofiles.profiles1d[:].zefffit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_1d[:].zeff_fit.weight_σ

error of coreprofiles.profiles1d[:].zeff_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.profiles_1d[:].zeff_fit.measured"]

core_profiles.profiles_2d[:].grid.dim1

First dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_2d[:].grid.dim1_σ

error of coreprofiles.profiles2d[:].grid.dim1

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_2d[:].grid.dim2

Second dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_2d[:].grid.dim2_σ

error of coreprofiles.profiles2d[:].grid.dim2

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.profiles_2d[:].grid.volume_element

Elementary plasma volume of plasma enclosed in the cell formed by the nodes [dim1(i) dim2(j)], [dim1(i+1) dim2(j)], [dim1(i) dim2(j+1)] and [dim1(i+1) dim2(j+1)]

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].grid.volume_element_σ

error of coreprofiles.profiles2d[:].grid.volume_element

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].grid_type.description

Verbose description

  • Data Type: STR_0D

core_profiles.profiles_2d[:].grid_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.profiles_2d[:].grid_type.name

Short string identifier

  • Data Type: STR_0D

core_profiles.profiles_2d[:].ion[:].density

Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].density_σ

error of coreprofiles.profiles2d[:].ion[:].density

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].density_fast

Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].density_fast_σ

error of coreprofiles.profiles2d[:].ion[:].density_fast

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].density_thermal

Density (thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].density_thermal_σ

error of coreprofiles.profiles2d[:].ion[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].element[:].a_σ

error of coreprofiles.profiles2d[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_profiles.profiles_2d[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].element[:].z_n_σ

error of coreprofiles.profiles2d[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].ion_index

Index of the corresponding ion species in the ../../../profiles_1d/ion array

  • Data Type: INT_0D

core_profiles.profiles_2d[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

core_profiles.profiles_2d[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

core_profiles.profiles_2d[:].ion[:].pressure

Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].pressure_σ

error of coreprofiles.profiles2d[:].ion[:].pressure

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].pressure_fast_parallel_σ

error of coreprofiles.profiles2d[:].ion[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].pressure_fast_perpendicular_σ

error of coreprofiles.profiles2d[:].ion[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].pressure_thermal_σ

error of coreprofiles.profiles2d[:].ion[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken) (average over charge states when multiple charge states are considered)

  • Units: rad.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].rotation_frequency_tor_σ

error of coreprofiles.profiles2d[:].ion[:].rotationfrequencytor

  • Units: rad.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].density_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].density

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].density_fast_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].density_fast

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].density_thermal_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_profiles.profiles_2d[:].ion[:].state[:].ionisation_potential

Cumulative and average ionisation potential to reach a given bundle. Defined as sum (xz* (sum of Epot from z'=0 to z-1)), where Epot is the ionisation potential of ion Xz’+, and xz is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.

  • Units: eV
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].ionisation_potential_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].ionisation_potential

  • Units: eV
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].label

String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

core_profiles.profiles_2d[:].ion[:].state[:].pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].pressure_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].pressure

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].pressure_fast_parallel_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].pressure_fast_perpendicular_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].pressure_thermal_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken)

  • Units: rad.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].rotation_frequency_tor_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].rotationfrequencytor

  • Units: rad.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].temperature

Temperature

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].temperature_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].temperature

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].vibrational_level_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_average

Average Z of the charge state bundle, volume averaged over the plasma radius (equal to zmin if no bundle), = sum (Z*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_average_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].z_average

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_max_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_min

Minimum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_min_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_square_average

Average Z square of the charge state bundle, volume averaged over the plasma radius (equal to zmin squared if no bundle), = sum (Z^2*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].state[:].z_square_average_σ

error of coreprofiles.profiles2d[:].ion[:].state[:].zsquareaverage

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].temperature

Temperature (average over charge states when multiple charge states are considered)

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].temperature_σ

error of coreprofiles.profiles2d[:].ion[:].temperature

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.diamagnetic

Diamagnetic component

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.diamagnetic_σ

error of coreprofiles.profiles2d[:].ion[:].velocity.diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.parallel

Parallel component

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.parallel_σ

error of coreprofiles.profiles2d[:].ion[:].velocity.parallel

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.poloidal

Poloidal component

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.poloidal_σ

error of coreprofiles.profiles2d[:].ion[:].velocity.poloidal

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.radial

Radial component

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.radial_σ

error of coreprofiles.profiles2d[:].ion[:].velocity.radial

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.toroidal

Toroidal component

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].velocity.toroidal_σ

error of coreprofiles.profiles2d[:].ion[:].velocity.toroidal

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed), volume averaged over plasma radius

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].ion[:].z_ion_σ

error of coreprofiles.profiles2d[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].momentum_tor

Total plasma toroidal momentum, summed over ion species and electrons weighted by their density and major radius, i.e. sumoverspecies(nRm*Vphi)

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].momentum_tor_σ

error of coreprofiles.profiles2d[:].momentum_tor

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].n_i_thermal_total

Total ion thermal density (sum over species and charge states)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].n_i_thermal_total_σ

error of coreprofiles.profiles2d[:].nithermal_total

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].n_i_total_over_n_e

Ratio of total ion density (sum over species and charge states) over electron density. (thermal+non-thermal)

  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].n_i_total_over_n_e_σ

error of coreprofiles.profiles2d[:].nitotalovern_e

  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_ion_total

Total (sum over ion species) thermal ion pressure

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_ion_total_σ

error of coreprofiles.profiles2d[:].pressureiontotal

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_parallel

Total parallel pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_parallel_σ

error of coreprofiles.profiles2d[:].pressure_parallel

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_perpendicular

Total perpendicular pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_perpendicular_σ

error of coreprofiles.profiles2d[:].pressure_perpendicular

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_thermal

Thermal pressure (electrons+ions)

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].pressure_thermal_σ

error of coreprofiles.profiles2d[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].t_i_average

Ion temperature (averaged on states and ion species)

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].t_i_average_σ

error of coreprofiles.profiles2d[:].tiaverage

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

core_profiles.profiles_2d[:].zeff

Effective charge

  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.profiles_2d[:].zeff_σ

error of coreprofiles.profiles2d[:].zeff

  • Data Type: FLT_2D
  • Coordinates: ["core_profiles.profiles_2d[:].grid.dim1", "core_profiles.profiles_2d[:].grid.dim2"]

core_profiles.statistics[:].quantity_2d[:].distribution.bins

Bins of quantitiy values, defined for each element (first dimension) corresponding to the first dimension of the original 2D quantity

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].quantity_2d[:].distribution.bins_σ

error of coreprofiles.statistics[:].quantity2d[:].distribution.bins

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].quantity_2d[:].distribution.probability

Probability to have a value of the quantity between bins(n) and bins(n+1) (thus the size of its second dimension is the size of the second dimension of the bins array - 1). The first dimension correspond to the first dimension of the original 2D quantity

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].quantity_2d[:].distribution.probability_σ

error of coreprofiles.statistics[:].quantity2d[:].distribution.probability

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].quantity_2d[:].path

Path of the quantity within the IDS, following the syntax given in the link below

  • Data Type: STR_0D

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].grid_index

Only if the statistics value is given on a different GGD grid subset than the original quantity (e.g. if the statistics has worked over a dimension of the GGD), index of the grid used to represent the statistics value

  • Data Type: INT_0D

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].grid_subset_index

Only if the statistics value is given on a different GGD grid subset than the original quantity (e.g. if the statistics has worked over a dimension of the GGD), index of the new grid subset the statistics value is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].identifier.description

Verbose description

  • Data Type: STR_0D

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].identifier.name

Short string identifier

  • Data Type: STR_0D

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].uq_input_path

For Sobol index only, path to the related the uqinput quantity, e.g. ../../../uqinput_2d(3)

  • Data Type: INT_0D

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].value

Value of the statistics for that quantity, the array corresponding to the first dimension of the original 2D quantity

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.statistics[:].quantity_2d[:].statistics_type[:].value_σ

error of coreprofiles.statistics[:].quantity2d[:].statistics_type[:].value

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.statistics[:].time

Time

  • Units: s
  • Data Type: FLT_0D

core_profiles.statistics[:].time_width

Width of the time interval over which the statistics have been calculated. By convention, the time interval starts at time-time_width and ends at time.

  • Units: s
  • Data Type: FLT_0D

core_profiles.statistics[:].time_width_σ

error of coreprofiles.statistics[:].timewidth

  • Units: s
  • Data Type: FLT_0D

core_profiles.statistics[:].uq_input_2d[:].distribution.bins

Bins of quantitiy values, defined for each element (first dimension) corresponding to the first dimension of the original 2D quantity

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].uq_input_2d[:].distribution.bins_σ

error of coreprofiles.statistics[:].uqinput_2d[:].distribution.bins

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].uq_input_2d[:].distribution.probability

Probability to have a value of the quantity between bins(n) and bins(n+1) (thus the size of its second dimension is the size of the second dimension of the bins array - 1). The first dimension correspond to the first dimension of the original 2D quantity

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].uq_input_2d[:].distribution.probability_σ

error of coreprofiles.statistics[:].uqinput_2d[:].distribution.probability

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

core_profiles.statistics[:].uq_input_2d[:].path

Path of the quantity within the IDS, following the syntax given in the link below

  • Data Type: STR_0D

core_profiles.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_profiles.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.vacuum_toroidal_field.b0_σ

error of coreprofiles.vacuumtoroidal_field.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_profiles.time"]

core_profiles.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

core_profiles.vacuum_toroidal_field.r0_σ

error of coreprofiles.vacuumtoroidal_field.r0

  • Units: m
  • Data Type: FLT_0D

core_sources.code.commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.code.library[:].name

Name of software

  • Data Type: STR_0D

core_sources.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_sources.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

core_sources.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.code.name

Name of software generating IDS

  • Data Type: STR_0D

core_sources.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["core_sources.time"]

core_sources.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_sources.code.repository

URL of software repository

  • Data Type: STR_0D

core_sources.code.version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

core_sources.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

core_sources.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

core_sources.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

core_sources.ids_properties.occurrence

N/A

  • Data Type: INT_0D

core_sources.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

core_sources.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_sources.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

core_sources.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

core_sources.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

core_sources.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

core_sources.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

core_sources.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

core_sources.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

core_sources.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

core_sources.source[:].code.commit

Unique commit reference of software

  • Data Type: STR_0D

core_sources.source[:].code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_sources.source[:].code.name

Name of software used

  • Data Type: STR_0D

core_sources.source[:].code.output_flag.data

Data

  • Data Type: INT_1D
  • Coordinates: ["core_sources.source[:].code.output_flag.time"]

core_sources.source[:].code.output_flag.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_sources.source[:].code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_sources.source[:].code.repository

URL of software repository

  • Data Type: STR_0D

core_sources.source[:].code.version

Unique version (tag) of software

  • Data Type: STR_0D

core_sources.source[:].global_quantities[:].current_parallel

Parallel current driven

  • Units: A
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].current_parallel_σ

error of coresources.source[:].globalquantities[:].current_parallel

  • Units: A
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].electrons.particles

Electron particle source

  • Units: s^-1
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].electrons.particles_σ

error of coresources.source[:].globalquantities[:].electrons.particles

  • Units: s^-1
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].electrons.power

Power coupled to electrons

  • Units: W
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].electrons.power_σ

error of coresources.source[:].globalquantities[:].electrons.power

  • Units: W
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].power

Total power coupled to the plasma

  • Units: W
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].power_σ

error of coresources.source[:].globalquantities[:].power

  • Units: W
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].time

Time

  • Units: s
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].torque_tor

Toroidal torque

  • Units: kg.m^2.s^-2
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].torque_tor_σ

error of coresources.source[:].globalquantities[:].torque_tor

  • Units: kg.m^2.s^-2
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].total_ion_particles

Total ion particle source (summed over ion species)

  • Units: (ions).s^-1
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].total_ion_particles_σ

error of coresources.source[:].globalquantities[:].totalionparticles

  • Units: (ions).s^-1
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].total_ion_power

Total power coupled to ion species (summed over ion species)

  • Units: W
  • Data Type: FLT_0D

core_sources.source[:].global_quantities[:].total_ion_power_σ

error of coresources.source[:].globalquantities[:].totalionpower

  • Units: W
  • Data Type: FLT_0D

core_sources.source[:].identifier.description

Verbose description

  • Data Type: STR_0D

core_sources.source[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_sources.source[:].identifier.name

Short string identifier

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].conductivity_parallel

Parallel conductivity due to this source

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].conductivity_parallel_σ

error of coresources.source[:].profiles1d[:].conductivity_parallel

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].current_parallel_inside

Parallel current driven inside the flux surface. Cumulative surface integral of j_parallel

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].current_parallel_inside_σ

error of coresources.source[:].profiles1d[:].currentparallelinside

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.energy

Source term for the electron energy equation

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.energy_σ

error of coresources.source[:].profiles1d[:].electrons.energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.energy_decomposed.explicit_part

Explicit part of the source term

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.energy_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].electrons.energydecomposed.explicitpart

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.energy_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.energy_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].electrons.energydecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles

Source term for electron density equation

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles_σ

error of coresources.source[:].profiles1d[:].electrons.particles

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles_decomposed.explicit_part

Explicit part of the source term

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].electrons.particlesdecomposed.explicitpart

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].electrons.particlesdecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles_inside

Electron source inside the flux surface. Cumulative volume integral of the source term for the electron density equation.

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.particles_inside_σ

error of coresources.source[:].profiles1d[:].electrons.particles_inside

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.power_inside

Power coupled to electrons inside the flux surface. Cumulative volume integral of the source term for the electron energy equation

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].electrons.power_inside_σ

error of coresources.source[:].profiles1d[:].electrons.power_inside

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.area_σ

error of coresources.source[:].profiles1d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.psi_σ

error of coresources.source[:].profiles1d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].grid.psi_boundary_σ

error of coresources.source[:].profiles1d[:].grid.psi_boundary

  • Units: Wb
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].grid.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].grid.psi_magnetic_axis_σ

error of coresources.source[:].profiles1d[:].grid.psimagneticaxis

  • Units: Wb
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].grid.psi_norm

Normalized poloidal magnetic flux

  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.psi_norm_σ

error of coresources.source[:].profiles1d[:].grid.psi_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.rho_pol_norm_σ

error of coresources.source[:].profiles1d[:].grid.rhopolnorm

  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.rho_tor_σ

error of coresources.source[:].profiles1d[:].grid.rho_tor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_sources.source[:].profiles_1d[:].grid.rho_tor_norm_σ

error of coresources.source[:].profiles1d[:].grid.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_sources.source[:].profiles_1d[:].grid.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.surface_σ

error of coresources.source[:].profiles1d[:].grid.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].grid.volume_σ

error of coresources.source[:].profiles1d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].element[:].a_σ

error of coresources.source[:].profiles1d[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_sources.source[:].profiles_1d[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].element[:].z_n_σ

error of coresources.source[:].profiles1d[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].energy

Source term for the ion energy transport equation.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].energy_σ

error of coresources.source[:].profiles1d[:].ion[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].energy_decomposed.explicit_part

Explicit part of the source term

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].energy_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].energydecomposed.explicitpart

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].energy_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].energy_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].energydecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].fast_particles_energy

Incoming energy of the fast ion particles (eg. fusion 3.5MeV alphas or 1MeV nbi)

  • Units: eV
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].fast_particles_energy_σ

error of coresources.source[:].profiles1d[:].ion[:].fastparticlesenergy

  • Units: eV
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].ion[:].momentum.diamagnetic

Diamagnetic component

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.diamagnetic_σ

error of coresources.source[:].profiles1d[:].ion[:].momentum.diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.parallel

Parallel component

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.parallel_σ

error of coresources.source[:].profiles1d[:].ion[:].momentum.parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.poloidal

Poloidal component

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.poloidal_σ

error of coresources.source[:].profiles1d[:].ion[:].momentum.poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.radial

Radial component

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.radial_σ

error of coresources.source[:].profiles1d[:].ion[:].momentum.radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.toroidal

Toroidal component

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.toroidal_σ

error of coresources.source[:].profiles1d[:].ion[:].momentum.toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.toroidal_decomposed.explicit_part

Explicit part of the source term

  • Units: kg.m^2.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.toroidal_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].momentum.toroidaldecomposed.explicitpart

  • Units: kg.m^2.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.toroidal_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].momentum.toroidal_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].momentum.toroidaldecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

core_sources.source[:].profiles_1d[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

core_sources.source[:].profiles_1d[:].ion[:].particles

Source term for ion density equation

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].particles_σ

error of coresources.source[:].profiles1d[:].ion[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].particles_decomposed.explicit_part

Explicit part of the source term

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].particles_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].particlesdecomposed.explicitpart

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].particles_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].particles_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].particlesdecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].particles_inside

Ion source inside the flux surface. Cumulative volume integral of the source term for the ion density equation.

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].particles_inside_σ

error of coresources.source[:].profiles1d[:].ion[:].particles_inside

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].power_inside

Power coupled to the ion species inside the flux surface. Cumulative volume integral of the source term for the electron energy equation

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].power_inside_σ

error of coresources.source[:].profiles1d[:].ion[:].power_inside

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].energy

Source terms for the charge state energy transport equation

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].energy_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].energy_decomposed.explicit_part

Explicit part of the source term

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].energy_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].energydecomposed.explicitpart

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].energy_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].energy_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].energydecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles

Source term for the charge state density transport equation

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles_decomposed.explicit_part

Explicit part of the source term

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].particlesdecomposed.explicitpart

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].particlesdecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles_inside

State source inside the flux surface. Cumulative volume integral of the source term for the electron density equation.

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].particles_inside_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].particles_inside

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].power_inside

Power coupled to the state inside the flux surface. Cumulative volume integral of the source term for the electron energy equation

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].power_inside_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].power_inside

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].vibrational_level_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].z_max

Maximum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].z_max_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].z_min

Minimum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].state[:].z_min_σ

error of coresources.source[:].profiles1d[:].ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].ion[:].z_ion_σ

error of coresources.source[:].profiles1d[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].j_parallel

Parallel current density source, average(J.B) / B0, where B0 = coresources/vacuumtoroidal_field/b0

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].j_parallel_σ

error of coresources.source[:].profiles1d[:].j_parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].momentum_tor

Source term for total toroidal momentum equation

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].momentum_tor_σ

error of coresources.source[:].profiles1d[:].momentum_tor

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].momentum_tor_j_cross_b_field

Contribution to the toroidal momentum source term (already included in the momentum_tor node) corresponding to the toroidal torques onto the thermal plasma due to Lorentz force associated with radial currents. These currents appear as return-currents (enforcing quasi-neutrality, div(J)=0) balancing radial currents of non-thermal particles, e.g. radial currents of fast and trapped neutral-beam-ions.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].momentum_tor_j_cross_b_field_σ

error of coresources.source[:].profiles1d[:].momentumtorjcrossb_field

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].neutral[:].element[:].a_σ

error of coresources.source[:].profiles1d[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_sources.source[:].profiles_1d[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].neutral[:].element[:].z_n_σ

error of coresources.source[:].profiles1d[:].neutral[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].neutral[:].energy

Source term for the neutral energy transport equation.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].energy_σ

error of coresources.source[:].profiles1d[:].neutral[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

core_sources.source[:].profiles_1d[:].neutral[:].label

String identifying the neutral species (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].neutral[:].multiple_states_flag

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

core_sources.source[:].profiles_1d[:].neutral[:].particles

Source term for neutral density equation

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].particles_σ

error of coresources.source[:].profiles1d[:].neutral[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].neutral[:].state[:].energy

Source terms for the state energy transport equation

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].state[:].energy_σ

error of coresources.source[:].profiles1d[:].neutral[:].state[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].neutral[:].state[:].neutral_type.description

Verbose description

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].neutral[:].state[:].neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_sources.source[:].profiles_1d[:].neutral[:].state[:].neutral_type.name

Short string identifier

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].neutral[:].state[:].particles

Source term for the state density transport equation

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].state[:].particles_σ

error of coresources.source[:].profiles1d[:].neutral[:].state[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].neutral[:].state[:].vibrational_level_σ

error of coresources.source[:].profiles1d[:].neutral[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_sources.source[:].profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

core_sources.source[:].profiles_1d[:].torque_tor_inside

Toroidal torque inside the flux surface. Cumulative volume integral of the source term for the total toroidal momentum equation

  • Units: kg.m^2.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].torque_tor_inside_σ

error of coresources.source[:].profiles1d[:].torquetorinside

  • Units: kg.m^2.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_energy

Source term for the total (summed over ion species) energy equation

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_energy_σ

error of coresources.source[:].profiles1d[:].totalionenergy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_energy_decomposed.explicit_part

Explicit part of the source term

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_energy_decomposed.explicit_part_σ

error of coresources.source[:].profiles1d[:].totalionenergydecomposed.explicitpart

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_energy_decomposed.implicit_part

Implicit part of the source term, i.e. to be multiplied by the equation's primary quantity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_energy_decomposed.implicit_part_σ

error of coresources.source[:].profiles1d[:].totalionenergydecomposed.implicitpart

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_power_inside

Total power coupled to ion species (summed over ion species) inside the flux surface. Cumulative volume integral of the source term for the total ion energy equation

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].profiles_1d[:].total_ion_power_inside_σ

error of coresources.source[:].profiles1d[:].totalionpower_inside

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

core_sources.source[:].species.ion.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.element[:].a_σ

error of core_sources.source[:].species.ion.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_sources.source[:].species.ion.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.element[:].z_n_σ

error of coresources.source[:].species.ion.element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.label

String identifying ion (e.g. H+, D+, T+, He+2, C+, ...)

  • Data Type: STR_0D

core_sources.source[:].species.ion.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_sources.source[:].species.ion.state.label

String identifying ion state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

core_sources.source[:].species.ion.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.state.vibrational_level_σ

error of coresources.source[:].species.ion.state.vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_sources.source[:].species.ion.state.z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.state.z_max_σ

error of coresources.source[:].species.ion.state.zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.state.z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.state.z_min_σ

error of coresources.source[:].species.ion.state.zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.ion.z_ion_σ

error of coresources.source[:].species.ion.zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.neutral.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].species.neutral.element[:].a_σ

error of core_sources.source[:].species.neutral.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_sources.source[:].species.neutral.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_sources.source[:].species.neutral.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.neutral.element[:].z_n_σ

error of coresources.source[:].species.neutral.element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.neutral.label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

core_sources.source[:].species.neutral.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_sources.source[:].species.neutral.state.label

String identifying neutral state

  • Data Type: STR_0D

core_sources.source[:].species.neutral.state.neutral_type.description

Verbose description

  • Data Type: STR_0D

core_sources.source[:].species.neutral.state.neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_sources.source[:].species.neutral.state.neutral_type.name

Short string identifier

  • Data Type: STR_0D

core_sources.source[:].species.neutral.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.neutral.state.vibrational_level_σ

error of coresources.source[:].species.neutral.state.vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_sources.source[:].species.neutral.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_sources.source[:].species.type.description

Verbose description

  • Data Type: STR_0D

core_sources.source[:].species.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_sources.source[:].species.type.name

Short string identifier

  • Data Type: STR_0D

core_sources.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_sources.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.time"]

core_sources.vacuum_toroidal_field.b0_σ

error of coresources.vacuumtoroidal_field.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_sources.time"]

core_sources.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

core_sources.vacuum_toroidal_field.r0_σ

error of coresources.vacuumtoroidal_field.r0

  • Units: m
  • Data Type: FLT_0D

core_transport.code.commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.code.library[:].name

Name of software

  • Data Type: STR_0D

core_transport.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_transport.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

core_transport.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.code.name

Name of software generating IDS

  • Data Type: STR_0D

core_transport.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["core_transport.time"]

core_transport.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_transport.code.repository

URL of software repository

  • Data Type: STR_0D

core_transport.code.version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

core_transport.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

core_transport.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

core_transport.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

core_transport.ids_properties.occurrence

N/A

  • Data Type: INT_0D

core_transport.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

core_transport.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_transport.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

core_transport.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

core_transport.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

core_transport.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

core_transport.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

core_transport.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

core_transport.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

core_transport.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

core_transport.model[:].code.commit

Unique commit reference of software

  • Data Type: STR_0D

core_transport.model[:].code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

core_transport.model[:].code.name

Name of software used

  • Data Type: STR_0D

core_transport.model[:].code.output_flag.data

Data

  • Data Type: INT_1D
  • Coordinates: ["core_transport.model[:].code.output_flag.time"]

core_transport.model[:].code.output_flag.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.model[:].code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

core_transport.model[:].code.repository

URL of software repository

  • Data Type: STR_0D

core_transport.model[:].code.version

Unique version (tag) of software

  • Data Type: STR_0D

core_transport.model[:].comment

Any comment describing the model

  • Data Type: STR_0D

core_transport.model[:].flux_multiplier

Multiplier applied to the particule flux when adding its contribution in the expression of the heat flux : can be 0, 3/2 or 5/2

  • Data Type: FLT_0D

core_transport.model[:].flux_multiplier_σ

error of coretransport.model[:].fluxmultiplier

  • Data Type: FLT_0D

core_transport.model[:].identifier.description

Verbose description

  • Data Type: STR_0D

core_transport.model[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

core_transport.model[:].identifier.name

Short string identifier

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].conductivity_parallel

Parallel conductivity

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].conductivity_parallel_σ

error of coretransport.model[:].profiles1d[:].conductivity_parallel

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].e_field_radial

Radial component of the electric field (calculated e.g. by a neoclassical model)

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].e_field_radial_σ

error of coretransport.model[:].profiles1d[:].efieldradial

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.energy.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.energy.d_σ

error of coretransport.model[:].profiles1d[:].electrons.energy.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.energy.flux

Flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.energy.flux_σ

error of coretransport.model[:].profiles1d[:].electrons.energy.flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.energy.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.energy.v_σ

error of coretransport.model[:].profiles1d[:].electrons.energy.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.particles.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.particles.d_σ

error of coretransport.model[:].profiles1d[:].electrons.particles.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.particles.flux

Flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.particles.flux_σ

error of coretransport.model[:].profiles1d[:].electrons.particles.flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.particles.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].electrons.particles.v_σ

error of coretransport.model[:].profiles1d[:].electrons.particles.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.area_σ

error of coretransport.model[:].profiles1d[:].grid_d.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.psi_σ

error of coretransport.model[:].profiles1d[:].grid_d.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_d.psi_boundary_σ

error of coretransport.model[:].profiles1d[:].gridd.psiboundary

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_d.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_d.psi_magnetic_axis_σ

error of coretransport.model[:].profiles1d[:].gridd.psimagnetic_axis

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_d.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.rho_pol_norm_σ

error of coretransport.model[:].profiles1d[:].gridd.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.rho_tor_σ

error of coretransport.model[:].profiles1d[:].gridd.rhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm_σ

error of coretransport.model[:].profiles1d[:].gridd.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.model[:].profiles_1d[:].grid_d.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.surface_σ

error of coretransport.model[:].profiles1d[:].grid_d.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_d.volume_σ

error of coretransport.model[:].profiles1d[:].grid_d.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.area_σ

error of coretransport.model[:].profiles1d[:].grid_flux.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.psi_σ

error of coretransport.model[:].profiles1d[:].grid_flux.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_flux.psi_boundary_σ

error of coretransport.model[:].profiles1d[:].gridflux.psiboundary

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_flux.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_flux.psi_magnetic_axis_σ

error of coretransport.model[:].profiles1d[:].gridflux.psimagnetic_axis

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_flux.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.rho_pol_norm_σ

error of coretransport.model[:].profiles1d[:].gridflux.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_σ

error of coretransport.model[:].profiles1d[:].gridflux.rhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm_σ

error of coretransport.model[:].profiles1d[:].gridflux.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.model[:].profiles_1d[:].grid_flux.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.surface_σ

error of coretransport.model[:].profiles1d[:].grid_flux.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_flux.volume_σ

error of coretransport.model[:].profiles1d[:].grid_flux.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.area_σ

error of coretransport.model[:].profiles1d[:].grid_v.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.psi_σ

error of coretransport.model[:].profiles1d[:].grid_v.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_v.psi_boundary_σ

error of coretransport.model[:].profiles1d[:].gridv.psiboundary

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_v.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_v.psi_magnetic_axis_σ

error of coretransport.model[:].profiles1d[:].gridv.psimagnetic_axis

  • Units: Wb
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].grid_v.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.rho_pol_norm_σ

error of coretransport.model[:].profiles1d[:].gridv.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.rho_tor_σ

error of coretransport.model[:].profiles1d[:].gridv.rhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm_σ

error of coretransport.model[:].profiles1d[:].gridv.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.model[:].profiles_1d[:].grid_v.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.surface_σ

error of coretransport.model[:].profiles1d[:].grid_v.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].grid_v.volume_σ

error of coretransport.model[:].profiles1d[:].grid_v.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].element[:].a_σ

error of coretransport.model[:].profiles1d[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_transport.model[:].profiles_1d[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].element[:].z_n_σ

error of coretransport.model[:].profiles1d[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].energy.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].energy.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].energy.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].energy.flux

Flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].energy.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].energy.flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].energy.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].energy.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].energy.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.diamagnetic.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.diamagnetic.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.diamagnetic.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.diamagnetic.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.diamagnetic.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.parallel.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.parallel.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.parallel.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.parallel.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.parallel.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.poloidal.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.poloidal.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.poloidal.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.poloidal.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.poloidal.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.radial.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.radial.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.radial.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.radial.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.radial.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.toroidal.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.toroidal.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.toroidal.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].momentum.toroidal.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].momentum.toroidal.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

core_transport.model[:].profiles_1d[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

core_transport.model[:].profiles_1d[:].ion[:].particles.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].particles.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].particles.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].particles.flux

Flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].particles.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].particles.flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].particles.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].particles.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].particles.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].energy.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].energy.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].energy.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].energy.flux

Flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].energy.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].energy.flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].energy.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].energy.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].energy.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.diamagnetic.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.diamagnetic.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.diamagnetic.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.diamagnetic.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.diamagnetic.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.parallel.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.parallel.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.parallel.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.parallel.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.parallel.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.poloidal.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.poloidal.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.poloidal.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.poloidal.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.poloidal.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.radial.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.radial.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.radial.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.radial.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.radial.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.toroidal.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.flow_damping_rate

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.flow_damping_rate_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.toroidal.flowdampingrate

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.toroidal.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].momentum.toroidal.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].momentum.toroidal.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].particles.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].particles.d_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].particles.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].particles.flux

Flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].particles.flux_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].particles.flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].particles.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].particles.v_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].particles.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].vibrational_level_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].z_max

Maximum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].z_max_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].z_min

Minimum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].state[:].z_min_σ

error of coretransport.model[:].profiles1d[:].ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].ion[:].z_ion_σ

error of coretransport.model[:].profiles1d[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].momentum_tor.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].momentum_tor.d_σ

error of coretransport.model[:].profiles1d[:].momentum_tor.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].momentum_tor.flux

Flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].momentum_tor.flux_σ

error of coretransport.model[:].profiles1d[:].momentum_tor.flux

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].momentum_tor.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].momentum_tor.v_σ

error of coretransport.model[:].profiles1d[:].momentum_tor.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].neutral[:].element[:].a_σ

error of coretransport.model[:].profiles1d[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

core_transport.model[:].profiles_1d[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].neutral[:].element[:].z_n_σ

error of coretransport.model[:].profiles1d[:].neutral[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].neutral[:].energy.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].energy.d_σ

error of coretransport.model[:].profiles1d[:].neutral[:].energy.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].energy.flux

Flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].energy.flux_σ

error of coretransport.model[:].profiles1d[:].neutral[:].energy.flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].energy.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].energy.v_σ

error of coretransport.model[:].profiles1d[:].neutral[:].energy.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

core_transport.model[:].profiles_1d[:].neutral[:].label

String identifying ion (e.g. H+, D+, T+, He+2, C+, ...)

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].neutral[:].multiple_states_flag

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

core_transport.model[:].profiles_1d[:].neutral[:].particles.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].particles.d_σ

error of coretransport.model[:].profiles1d[:].neutral[:].particles.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].particles.flux

Flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].particles.flux_σ

error of coretransport.model[:].profiles1d[:].neutral[:].particles.flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].particles.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].particles.v_σ

error of coretransport.model[:].profiles1d[:].neutral[:].particles.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].neutral[:].state[:].energy.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].energy.d_σ

error of coretransport.model[:].profiles1d[:].neutral[:].state[:].energy.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].energy.flux

Flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].energy.flux_σ

error of coretransport.model[:].profiles1d[:].neutral[:].state[:].energy.flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].energy.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].energy.v_σ

error of coretransport.model[:].profiles1d[:].neutral[:].state[:].energy.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].neutral[:].state[:].particles.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].particles.d_σ

error of coretransport.model[:].profiles1d[:].neutral[:].state[:].particles.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].particles.flux

Flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].particles.flux_σ

error of coretransport.model[:].profiles1d[:].neutral[:].state[:].particles.flux

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].particles.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].particles.v_σ

error of coretransport.model[:].profiles1d[:].neutral[:].state[:].particles.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].neutral[:].state[:].vibrational_level_σ

error of coretransport.model[:].profiles1d[:].neutral[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

core_transport.model[:].profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

core_transport.model[:].profiles_1d[:].total_ion_energy.d

Effective diffusivity

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].total_ion_energy.d_σ

error of coretransport.model[:].profiles1d[:].totalionenergy.d

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_d.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].total_ion_energy.flux

Flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].total_ion_energy.flux_σ

error of coretransport.model[:].profiles1d[:].totalionenergy.flux

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_flux.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].total_ion_energy.v

Effective convection

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.model[:].profiles_1d[:].total_ion_energy.v_σ

error of coretransport.model[:].profiles1d[:].totalionenergy.v

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.model[:].profiles_1d[:].grid_v.rho_tor_norm"]

core_transport.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

core_transport.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.time"]

core_transport.vacuum_toroidal_field.b0_σ

error of coretransport.vacuumtoroidal_field.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["core_transport.time"]

core_transport.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

core_transport.vacuum_toroidal_field.r0_σ

error of coretransport.vacuumtoroidal_field.r0

  • Units: m
  • Data Type: FLT_0D

costing.availability

Availability fraction of the plant

  • Data Type: FLT_0D

costing.availability_σ

error of costing.availability

  • Data Type: FLT_0D

costing.code.commit

Unique commit reference of software

  • Data Type: STR_0D

costing.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

costing.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

costing.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

costing.code.library[:].name

Name of software

  • Data Type: STR_0D

costing.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

costing.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

costing.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

costing.code.name

Name of software generating IDS

  • Data Type: STR_0D

costing.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["equilibrium.time"]

costing.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

costing.code.repository

URL of software repository

  • Data Type: STR_0D

costing.code.version

Unique version (tag) of software

  • Data Type: STR_0D

costing.construction_start_year

Year that plant construction begins

  • Units: year
  • Data Type: FLT_0D

costing.construction_start_year_σ

error of costing.constructionstartyear

  • Units: year
  • Data Type: FLT_0D

costing.cost_decommissioning.cost

Cost to decomission the plant

  • Units: $M
  • Data Type: FLT_0D

costing.cost_decommissioning.cost_σ

error of costing.cost_decommissioning.cost

  • Units: $M
  • Data Type: FLT_0D

costing.cost_decommissioning.system[:].cost

Cost to decommission the system

  • Units: $M
  • Data Type: FLT_0D

costing.cost_decommissioning.system[:].cost_σ

error of costing.cost_decommissioning.system[:].cost

  • Units: $M
  • Data Type: FLT_0D

costing.cost_decommissioning.system[:].name

Name of the system to decommission

  • Data Type: STR_0D

costing.cost_decommissioning.system[:].subsystem[:].cost

Cost to decommission the subsystem

  • Units: $M
  • Data Type: FLT_0D

costing.cost_decommissioning.system[:].subsystem[:].cost_σ

error of costing.cost_decommissioning.system[:].subsystem[:].cost

  • Units: $M
  • Data Type: FLT_0D

costing.cost_decommissioning.system[:].subsystem[:].name

Name of the subsystem to decommission

  • Data Type: STR_0D

costing.cost_direct_capital.cost

Total direct capital

  • Units: $M
  • Data Type: FLT_0D

costing.cost_direct_capital.cost_σ

error of costing.costdirectcapital.cost

  • Units: $M
  • Data Type: FLT_0D

costing.cost_direct_capital.system[:].cost

Cost of the system

  • Units: $M
  • Data Type: FLT_0D

costing.cost_direct_capital.system[:].cost_σ

error of costing.costdirectcapital.system[:].cost

  • Units: $M
  • Data Type: FLT_0D

costing.cost_direct_capital.system[:].name

Name of the system

  • Data Type: STR_0D

costing.cost_direct_capital.system[:].subsystem[:].cost

Cost of the subsystem

  • Units: $M
  • Data Type: FLT_0D

costing.cost_direct_capital.system[:].subsystem[:].cost_σ

error of costing.costdirectcapital.system[:].subsystem[:].cost

  • Units: $M
  • Data Type: FLT_0D

costing.cost_direct_capital.system[:].subsystem[:].name

Name of the subsystem

  • Data Type: STR_0D

costing.cost_lifetime

Total cost of fusion power plant

  • Units: $M
  • Data Type: FLT_0D

costing.cost_lifetime_σ

error of costing.cost_lifetime

  • Units: $M
  • Data Type: FLT_0D

costing.cost_operations.system[:].name

Name of the system

  • Data Type: STR_0D

costing.cost_operations.system[:].subsystem[:].name

Name of the subsystem

  • Data Type: STR_0D

costing.cost_operations.system[:].subsystem[:].yearly_cost

Cost of the subsystem per year

  • Units: $M/year
  • Data Type: FLT_0D

costing.cost_operations.system[:].subsystem[:].yearly_cost_σ

error of costing.costoperations.system[:].subsystem[:].yearlycost

  • Units: $M/year
  • Data Type: FLT_0D

costing.cost_operations.system[:].yearly_cost

Cost of system per year

  • Units: $M/year
  • Data Type: FLT_0D

costing.cost_operations.system[:].yearly_cost_σ

error of costing.costoperations.system[:].yearlycost

  • Units: $M/year
  • Data Type: FLT_0D

costing.cost_operations.yearly_cost

Anual cost to operate the plant

  • Units: $M/year
  • Data Type: FLT_0D

costing.cost_operations.yearly_cost_σ

error of costing.costoperations.yearlycost

  • Units: $M/year
  • Data Type: FLT_0D

costing.future.inflation_rate

Predicted average rate of future inflation

  • Data Type: FLT_0D

costing.future.inflation_rate_σ

error of costing.future.inflation_rate

  • Data Type: FLT_0D

costing.future.learning.hts.learning_rate

Learning rate for ReBCO technology production

  • Data Type: FLT_0D

costing.future.learning.hts.learning_rate_σ

error of costing.future.learning.hts.learning_rate

  • Data Type: FLT_0D

costing.future.learning.hts.production_increase

Factor by which production of ReBCO multiplies

  • Data Type: FLT_0D

costing.future.learning.hts.production_increase_σ

error of costing.future.learning.hts.production_increase

  • Data Type: FLT_0D

costing.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

costing.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

costing.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

costing.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

costing.ids_properties.occurrence

N/A

  • Data Type: INT_0D

costing.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

costing.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

costing.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

costing.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

costing.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

costing.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

costing.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

costing.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

costing.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

costing.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

costing.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

costing.levelized_CoE

Levelized cost of electiricity (total cost / total electricy generated)

  • Units: $/kWh
  • Data Type: FLT_0D

costing.levelized_CoE_σ

error of costing.levelized_CoE

  • Units: $/kWh
  • Data Type: FLT_0D

costing.plant_lifetime

Lifetime of the plant

  • Units: year
  • Data Type: FLT_0D

costing.plant_lifetime_σ

error of costing.plant_lifetime

  • Units: year
  • Data Type: FLT_0D

costing.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.code.commit

Unique commit reference of software

  • Data Type: STR_0D

cryostat.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

cryostat.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

cryostat.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

cryostat.code.library[:].name

Name of software

  • Data Type: STR_0D

cryostat.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

cryostat.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

cryostat.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

cryostat.code.name

Name of software generating IDS

  • Data Type: STR_0D

cryostat.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["cryostat.time"]

cryostat.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

cryostat.code.repository

URL of software repository

  • Data Type: STR_0D

cryostat.code.version

Unique version (tag) of software

  • Data Type: STR_0D

cryostat.description_2d[:].cryostat.type.description

Verbose description

  • Data Type: STR_0D

cryostat.description_2d[:].cryostat.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

cryostat.description_2d[:].cryostat.type.name

Short string identifier

  • Data Type: STR_0D

cryostat.description_2d[:].cryostat.unit[:].annular.centreline.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].cryostat.unit[:].annular.centreline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].annular.centreline.r_σ

error of cryostat.description_2d[:].cryostat.unit[:].annular.centreline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].annular.centreline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.centreline.r"]

cryostat.description_2d[:].cryostat.unit[:].annular.centreline.z_σ

error of cryostat.description_2d[:].cryostat.unit[:].annular.centreline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.centreline.r"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_inner.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].cryostat.unit[:].annular.outline_inner.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_inner.r_σ

error of cryostat.description2d[:].cryostat.unit[:].annular.outlineinner.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_inner.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.outline_inner.r"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_inner.z_σ

error of cryostat.description2d[:].cryostat.unit[:].annular.outlineinner.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.outline_inner.r"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_outer.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].cryostat.unit[:].annular.outline_outer.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_outer.r_σ

error of cryostat.description2d[:].cryostat.unit[:].annular.outlineouter.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_outer.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.outline_outer.r"]

cryostat.description_2d[:].cryostat.unit[:].annular.outline_outer.z_σ

error of cryostat.description2d[:].cryostat.unit[:].annular.outlineouter.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.outline_outer.r"]

cryostat.description_2d[:].cryostat.unit[:].annular.resistivity

Resistivity of the vessel unit

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].cryostat.unit[:].annular.resistivity_σ

error of cryostat.description_2d[:].cryostat.unit[:].annular.resistivity

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].cryostat.unit[:].annular.thickness

Thickness of the vessel layer in the perpendicular direction to the centreline. Thickness(i) is the thickness of the layer between centreline/r(i),z(i) and centreline/r(i+1),z(i+1)

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.centreline.r"]

cryostat.description_2d[:].cryostat.unit[:].annular.thickness_σ

error of cryostat.description_2d[:].cryostat.unit[:].annular.thickness

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].annular.centreline.r"]

cryostat.description_2d[:].cryostat.unit[:].element[:].j_tor.data

Data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].element[:].j_tor.time"]

cryostat.description_2d[:].cryostat.unit[:].element[:].j_tor.data_σ

error of cryostat.description2d[:].cryostat.unit[:].element[:].jtor.data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].element[:].j_tor.time"]

cryostat.description_2d[:].cryostat.unit[:].element[:].j_tor.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].element[:].name

Name of the block element

  • Data Type: STR_0D

cryostat.description_2d[:].cryostat.unit[:].element[:].outline.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].cryostat.unit[:].element[:].outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].element[:].outline.r_σ

error of cryostat.description_2d[:].cryostat.unit[:].element[:].outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].cryostat.unit[:].element[:].outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].element[:].outline.r"]

cryostat.description_2d[:].cryostat.unit[:].element[:].outline.z_σ

error of cryostat.description_2d[:].cryostat.unit[:].element[:].outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].cryostat.unit[:].element[:].outline.r"]

cryostat.description_2d[:].cryostat.unit[:].element[:].resistance

Resistance of the block element

  • Units: Ohm
  • Data Type: FLT_0D

cryostat.description_2d[:].cryostat.unit[:].element[:].resistance_σ

error of cryostat.description_2d[:].cryostat.unit[:].element[:].resistance

  • Units: Ohm
  • Data Type: FLT_0D

cryostat.description_2d[:].cryostat.unit[:].element[:].resistivity

Resistivity of the block element

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].cryostat.unit[:].element[:].resistivity_σ

error of cryostat.description_2d[:].cryostat.unit[:].element[:].resistivity

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].cryostat.unit[:].identifier

Identifier of the unit

  • Data Type: STR_0D

cryostat.description_2d[:].cryostat.unit[:].name

Name of the unit

  • Data Type: STR_0D

cryostat.description_2d[:].thermal_shield.type.description

Verbose description

  • Data Type: STR_0D

cryostat.description_2d[:].thermal_shield.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

cryostat.description_2d[:].thermal_shield.type.name

Short string identifier

  • Data Type: STR_0D

cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.r_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.centreline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.r"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.z_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.centreline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.r"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_inner.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_inner.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_inner.r_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.outline_inner.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_inner.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_inner.r"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_inner.z_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.outline_inner.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_inner.r"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_outer.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_outer.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_outer.r_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.outline_outer.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_outer.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_outer.r"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_outer.z_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.outline_outer.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.outline_outer.r"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.resistivity

Resistivity of the vessel unit

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].thermal_shield.unit[:].annular.resistivity_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.resistivity

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].thermal_shield.unit[:].annular.thickness

Thickness of the vessel layer in the perpendicular direction to the centreline. Thickness(i) is the thickness of the layer between centreline/r(i),z(i) and centreline/r(i+1),z(i+1)

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.r"]

cryostat.description_2d[:].thermal_shield.unit[:].annular.thickness_σ

error of cryostat.description2d[:].thermalshield.unit[:].annular.thickness

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].annular.centreline.r"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].j_tor.data

Data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].element[:].j_tor.time"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].j_tor.data_σ

error of cryostat.description2d[:].thermalshield.unit[:].element[:].j_tor.data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].element[:].j_tor.time"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].j_tor.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].name

Name of the block element

  • Data Type: STR_0D

cryostat.description_2d[:].thermal_shield.unit[:].element[:].outline.closed

Flag identifying whether the contour is closed (1) or open (0)

  • Data Type: INT_0D

cryostat.description_2d[:].thermal_shield.unit[:].element[:].outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].outline.r_σ

error of cryostat.description2d[:].thermalshield.unit[:].element[:].outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].element[:].outline.r"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].outline.z_σ

error of cryostat.description2d[:].thermalshield.unit[:].element[:].outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["cryostat.description_2d[:].thermal_shield.unit[:].element[:].outline.r"]

cryostat.description_2d[:].thermal_shield.unit[:].element[:].resistance

Resistance of the block element

  • Units: Ohm
  • Data Type: FLT_0D

cryostat.description_2d[:].thermal_shield.unit[:].element[:].resistance_σ

error of cryostat.description2d[:].thermalshield.unit[:].element[:].resistance

  • Units: Ohm
  • Data Type: FLT_0D

cryostat.description_2d[:].thermal_shield.unit[:].element[:].resistivity

Resistivity of the block element

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].thermal_shield.unit[:].element[:].resistivity_σ

error of cryostat.description2d[:].thermalshield.unit[:].element[:].resistivity

  • Units: ohm.m
  • Data Type: FLT_0D

cryostat.description_2d[:].thermal_shield.unit[:].identifier

Identifier of the unit

  • Data Type: STR_0D

cryostat.description_2d[:].thermal_shield.unit[:].name

Name of the unit

  • Data Type: STR_0D

cryostat.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

cryostat.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

cryostat.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

cryostat.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

cryostat.ids_properties.occurrence

N/A

  • Data Type: INT_0D

cryostat.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

cryostat.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

cryostat.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

cryostat.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

cryostat.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

cryostat.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

cryostat.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

cryostat.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

cryostat.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

cryostat.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

cryostat.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

cryostat.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

dataset_description.data_entry.machine

Name of the experimental device to which this data is related

  • Data Type: STR_0D

dataset_description.data_entry.pulse

Pulse number

  • Data Type: INT_0D

dataset_description.data_entry.pulse_type

Type of the data entry, e.g. "pulse", "simulation", ...

  • Data Type: STR_0D

dataset_description.data_entry.run

Run number

  • Data Type: INT_0D

dataset_description.data_entry.user

Username

  • Data Type: STR_0D

dataset_description.dd_version

Version of the physics data dictionary of this dataset

  • Data Type: STR_0D

dataset_description.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

dataset_description.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

dataset_description.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

dataset_description.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

dataset_description.ids_properties.occurrence

N/A

  • Data Type: INT_0D

dataset_description.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

dataset_description.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

dataset_description.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

dataset_description.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_description.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

dataset_description.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

dataset_description.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

dataset_description.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

dataset_description.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

dataset_description.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

dataset_description.imas_version

Version of the IMAS infrastructure used to produce this data entry. Refers to the global IMAS repository which links to versions of every infrastructure tools

  • Data Type: STR_0D

dataset_description.parent_entry.machine

Name of the experimental device to which this data is related

  • Data Type: STR_0D

dataset_description.parent_entry.pulse

Pulse number

  • Data Type: INT_0D

dataset_description.parent_entry.pulse_type

Type of the data entry, e.g. "pulse", "simulation", ...

  • Data Type: STR_0D

dataset_description.parent_entry.run

Run number

  • Data Type: INT_0D

dataset_description.parent_entry.user

Username

  • Data Type: STR_0D

dataset_description.pulse_time_begin

Date and time (UTC) at which the pulse started on the experiment, expressed in a human readable form (ISO 8601) : the format of the string shall be : YYYY-MM-DDTHH:MM:SSZ. Example : 2020-07-24T14:19:00Z

  • Data Type: STR_0D

dataset_description.pulse_time_begin_epoch.nanoseconds

Elapsed nanoseconds since the time in seconds indicated above

  • Data Type: INT_0D

dataset_description.pulse_time_begin_epoch.seconds

Elapsed seconds since the Unix Epoch time (01/01/1970 00:00:00 UTC)

  • Data Type: INT_0D

dataset_description.pulse_time_end_epoch.nanoseconds

Elapsed nanoseconds since the time in seconds indicated above

  • Data Type: INT_0D

dataset_description.pulse_time_end_epoch.seconds

Elapsed seconds since the Unix Epoch time (01/01/1970 00:00:00 UTC)

  • Data Type: INT_0D

dataset_description.simulation.comment_after

Comment made at the end of a simulation

  • Data Type: STR_0D

dataset_description.simulation.comment_before

Comment made when launching a simulation

  • Data Type: STR_0D

dataset_description.simulation.time_begin

Start time

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_begin_σ

error of datasetdescription.simulation.timebegin

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_begun

Actual wall-clock time simulation started

  • Units: UTC
  • Data Type: STR_0D

dataset_description.simulation.time_current

Current time of the simulation

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_current_σ

error of datasetdescription.simulation.timecurrent

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_end

Stop time

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_end_σ

error of datasetdescription.simulation.timeend

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_ended

Actual wall-clock time simulation finished

  • Units: UTC
  • Data Type: STR_0D

dataset_description.simulation.time_restart

Time of the last restart done during the simulation

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_restart_σ

error of datasetdescription.simulation.timerestart

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_step

Time interval between main steps, e.g. storage step (if relevant and constant)

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.time_step_σ

error of datasetdescription.simulation.timestep

  • Units: s
  • Data Type: FLT_0D

dataset_description.simulation.workflow

Description of the workflow which has been used to produce this data entry (e.g. copy of the Kepler MOML if using Kepler)

  • Data Type: STR_0D

dataset_description.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

dataset_fair.identifier

Persistent identifier allowing to cite this data in a public and persistent way, should be provided as HTTP URIs

  • Data Type: STR_0D

dataset_fair.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

dataset_fair.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

dataset_fair.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

dataset_fair.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

dataset_fair.ids_properties.occurrence

N/A

  • Data Type: INT_0D

dataset_fair.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

dataset_fair.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

dataset_fair.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

dataset_fair.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

dataset_fair.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

dataset_fair.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

dataset_fair.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

dataset_fair.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

dataset_fair.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

dataset_fair.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

dataset_fair.is_referenced_by

List of documents (e.g. publications) or datasets making use of this data entry (e.g. PIDs of other datasets using this data entry as input)

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

dataset_fair.is_replaced_by

Persistent identifier referencing the new version of this data (replacing the present version)

  • Data Type: STR_0D

dataset_fair.license

License(s) under which the data is made available (license description or, more convenient, publicly accessible URL pointing to the full license text)

  • Data Type: STR_0D

dataset_fair.replaces

Persistent identifier referencing the previous version of this data

  • Data Type: STR_0D

dataset_fair.rights_holder

The organisation owning or managing rights over this data

  • Data Type: STR_0D

dataset_fair.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

dataset_fair.valid

Date range during which the data is or was valid. Expressed as YYYY-MM-DD/YYYY-MM-DD, where the former (resp. latter) date is the data at which the data started (resp. ceased) to be valid. If the data is still valid, the slash should still be present, i.e. indicate the validity start date with YYYY-MM-DD/. If the data ceased being valid but there is no information on the validity start date, indicate /YYYY-MM-DD.

  • Data Type: STR_0D

disruption.code.commit

Unique commit reference of software

  • Data Type: STR_0D

disruption.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

disruption.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

disruption.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

disruption.code.library[:].name

Name of software

  • Data Type: STR_0D

disruption.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

disruption.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

disruption.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

disruption.code.name

Name of software generating IDS

  • Data Type: STR_0D

disruption.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["disruption.time"]

disruption.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

disruption.code.repository

URL of software repository

  • Data Type: STR_0D

disruption.code.version

Unique version (tag) of software

  • Data Type: STR_0D

disruption.global_quantities.current_halo_pol

Poloidal halo current

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.current_halo_pol_σ

error of disruption.globalquantities.currenthalo_pol

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.current_halo_tor

Toroidal halo current

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.current_halo_tor_σ

error of disruption.globalquantities.currenthalo_tor

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_ohm

Total ohmic cumulated energy (integral of the power over the disruption duration)

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_ohm_σ

error of disruption.globalquantities.energyohm

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_ohm_halo

Ohmic cumulated energy (integral of the power over the disruption duration) in the halo region

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_ohm_halo_σ

error of disruption.globalquantities.energyohm_halo

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_parallel_halo

Cumulated parallel energy (integral of the heat flux parallel power over the disruption duration) in the halo region

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_parallel_halo_σ

error of disruption.globalquantities.energyparallel_halo

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_radiated_electrons_impurities

Total cumulated energy (integral of the power over the disruption duration) radiated by electrons on impurities

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_radiated_electrons_impurities_σ

error of disruption.globalquantities.energyradiatedelectronsimpurities

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_radiated_electrons_impurities_halo

Cumulated energy (integral of the power over the disruption duration) radiated by electrons on impurities in the halo region

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.energy_radiated_electrons_impurities_halo_σ

error of disruption.globalquantities.energyradiatedelectronsimpurities_halo

  • Units: J
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_ohm

Total ohmic power

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_ohm_σ

error of disruption.globalquantities.powerohm

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_ohm_halo

Ohmic power in the halo region

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_ohm_halo_σ

error of disruption.globalquantities.powerohm_halo

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_parallel_halo

Power of the parallel heat flux in the halo region

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_parallel_halo_σ

error of disruption.globalquantities.powerparallel_halo

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_radiated_electrons_impurities

Total power radiated by electrons on impurities

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_radiated_electrons_impurities_σ

error of disruption.globalquantities.powerradiatedelectronsimpurities

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_radiated_electrons_impurities_halo

Power radiated by electrons on impurities in the halo region

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.power_radiated_electrons_impurities_halo_σ

error of disruption.globalquantities.powerradiatedelectronsimpurities_halo

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.psi_halo_boundary

Poloidal flux at halo region boundary

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.global_quantities.psi_halo_boundary_σ

error of disruption.globalquantities.psihalo_boundary

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.halo_currents[:].active_wall_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].active_wall_point.r_σ

error of disruption.halocurrents[:].activewall_point.r

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].active_wall_point.z

Height

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].active_wall_point.z_σ

error of disruption.halocurrents[:].activewall_point.z

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].current_halo_pol

Poloidal halo current crossing through this area

  • Units: A
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].current_halo_pol_σ

error of disruption.halocurrents[:].area[:].currenthalo_pol

  • Units: A
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].end_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].end_point.r_σ

error of disruption.halocurrents[:].area[:].endpoint.r

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].end_point.z

Height

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].end_point.z_σ

error of disruption.halocurrents[:].area[:].endpoint.z

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].start_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].start_point.r_σ

error of disruption.halocurrents[:].area[:].startpoint.r

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].start_point.z

Height

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].area[:].start_point.z_σ

error of disruption.halocurrents[:].area[:].startpoint.z

  • Units: m
  • Data Type: FLT_0D

disruption.halo_currents[:].time

Time

  • Units: s
  • Data Type: FLT_0D

disruption.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

disruption.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

disruption.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

disruption.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

disruption.ids_properties.occurrence

N/A

  • Data Type: INT_0D

disruption.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

disruption.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

disruption.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

disruption.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

disruption.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

disruption.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

disruption.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

disruption.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

disruption.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

disruption.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

disruption.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

disruption.profiles_1d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.area_σ

error of disruption.profiles_1d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.psi_σ

error of disruption.profiles_1d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

disruption.profiles_1d[:].grid.psi_boundary_σ

error of disruption.profiles1d[:].grid.psiboundary

  • Units: Wb
  • Data Type: FLT_0D

disruption.profiles_1d[:].grid.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

disruption.profiles_1d[:].grid.psi_magnetic_axis_σ

error of disruption.profiles1d[:].grid.psimagnetic_axis

  • Units: Wb
  • Data Type: FLT_0D

disruption.profiles_1d[:].grid.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.rho_pol_norm_σ

error of disruption.profiles1d[:].grid.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.rho_tor_σ

error of disruption.profiles1d[:].grid.rhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

disruption.profiles_1d[:].grid.rho_tor_norm_σ

error of disruption.profiles1d[:].grid.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

disruption.profiles_1d[:].grid.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.surface_σ

error of disruption.profiles_1d[:].grid.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].grid.volume_σ

error of disruption.profiles_1d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].j_runaways

Runaways parallel current density = average(j.B) / B0, where B0 = Disruption/VacuumToroidalField/ B0

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].j_runaways_σ

error of disruption.profiles1d[:].jrunaways

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].power_density_conductive_losses

Power density of conductive losses to the wall (positive sign for losses)

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].power_density_conductive_losses_σ

error of disruption.profiles1d[:].powerdensityconductivelosses

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].power_density_radiative_losses

Power density of radiative losses (positive sign for losses)

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].power_density_radiative_losses_σ

error of disruption.profiles1d[:].powerdensityradiativelosses

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["disruption.profiles_1d[:].grid.rho_tor_norm"]

disruption.profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

disruption.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

disruption.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.vacuum_toroidal_field.b0_σ

error of disruption.vacuumtoroidalfield.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["disruption.time"]

disruption.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

disruption.vacuum_toroidal_field.r0_σ

error of disruption.vacuumtoroidalfield.r0

  • Units: m
  • Data Type: FLT_0D

distribution_sources.code.commit

Unique commit reference of software

  • Data Type: STR_0D

distribution_sources.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distribution_sources.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distribution_sources.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distribution_sources.code.library[:].name

Name of software

  • Data Type: STR_0D

distribution_sources.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distribution_sources.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

distribution_sources.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distribution_sources.code.name

Name of software generating IDS

  • Data Type: STR_0D

distribution_sources.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["distribution_sources.time"]

distribution_sources.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distribution_sources.code.repository

URL of software repository

  • Data Type: STR_0D

distribution_sources.code.version

Unique version (tag) of software

  • Data Type: STR_0D

distribution_sources.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

distribution_sources.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

distribution_sources.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

distribution_sources.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

distribution_sources.ids_properties.occurrence

N/A

  • Data Type: INT_0D

distribution_sources.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

distribution_sources.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

distribution_sources.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distribution_sources.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

distribution_sources.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

distribution_sources.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

distribution_sources.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

distribution_sources.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

distribution_sources.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

distribution_sources.magnetic_axis.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.time"]

distribution_sources.magnetic_axis.r_σ

error of distributionsources.magneticaxis.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.time"]

distribution_sources.magnetic_axis.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.time"]

distribution_sources.magnetic_axis.z_σ

error of distributionsources.magneticaxis.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.time"]

distribution_sources.source[:].ggd[:].discrete

List of indices of grid spaces (refers to ../grid/space) for which the source is discretely distributed. For example consider a source of 3.5 MeV alpha particles provided on a grid with two coordinates (spaces); rho_tor and energy. To specify that the source is given at energies exactly equal to 3.5 MeV, let discret have length 1 and set discrete(1)=2 since energy is dimension number 2. The source is then proportional to delta( 1 - energy / 3.5MeV ), where delta is the direct delta distribution. Discrete dimensions can only be used when the grid is rectangular.

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].base[:].jacobian_σ

error of distributionsources.source[:].ggd[:].grid.gridsubset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].base[:].tensor_contravariant_σ

error of distributionsources.source[:].ggd[:].grid.gridsubset[:].base[:].tensor_contravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].base[:].tensor_covariant_σ

error of distributionsources.source[:].ggd[:].grid.gridsubset[:].base[:].tensor_covariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].dimension

Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.grid_subset[:].element[:].object[:].dimension

Dimension of the object - using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].metric.jacobian_σ

error of distributionsources.source[:].ggd[:].grid.gridsubset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].metric.tensor_contravariant_σ

error of distributionsources.source[:].ggd[:].grid.gridsubset[:].metric.tensor_contravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.grid_subset[:].metric.tensor_covariant_σ

error of distributionsources.source[:].ggd[:].grid.gridsubset[:].metric.tensor_covariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distribution_sources.source[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.identifier.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.identifier.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: 'wall:0/descriptionggd(1)/gridggd', means that the grid is located in the wall IDS, occurrence 0, with ids path 'descriptionggd(1)/gridggd'. See the link below for more details about IDS paths

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].grid.space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.space[:].identifier.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object can possibly have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object, its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry_σ

error of distributionsources.source[:].ggd[:].grid.space[:].objectsper_dimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of distributionsources.source[:].ggd[:].grid.space[:].objectsperdimension[:].object[:].geometry2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].measure_σ

error of distributionsources.source[:].ggd[:].grid.space[:].objectsper_dimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

distribution_sources.source[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].particles[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: (m.s^-1)^-3.m^-3.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["distribution_sources.source[:].ggd[:].particles[:].values", "1...N"]

distribution_sources.source[:].ggd[:].particles[:].coefficients_σ

error of distribution_sources.source[:].ggd[:].particles[:].coefficients

  • Units: (m.s^-1)^-3.m^-3.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["distribution_sources.source[:].ggd[:].particles[:].values", "1...N"]

distribution_sources.source[:].ggd[:].particles[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].particles[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

distribution_sources.source[:].ggd[:].particles[:].values

One scalar value is provided per element in the grid subset.

  • Units: (m.s^-1)^-3.m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].particles[:].values_σ

error of distribution_sources.source[:].ggd[:].particles[:].values

  • Units: (m.s^-1)^-3.m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].particles

Particle source rate

  • Units: s^-1
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].particles_σ

error of distributionsources.source[:].globalquantities[:].particles

  • Units: s^-1
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].power

Total power of the source

  • Units: W
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].power_σ

error of distributionsources.source[:].globalquantities[:].power

  • Units: W
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].shinethrough.particles

Particle losses due to shinethrough

  • Units: s^-1
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].shinethrough.particles_σ

error of distributionsources.source[:].globalquantities[:].shinethrough.particles

  • Units: s^-1
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].shinethrough.power

Power losses due to shinethrough

  • Units: W
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].shinethrough.power_σ

error of distributionsources.source[:].globalquantities[:].shinethrough.power

  • Units: W
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].shinethrough.torque_tor

Toroidal torque losses due to shinethrough

  • Units: N.m
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].shinethrough.torque_tor_σ

error of distributionsources.source[:].globalquantities[:].shinethrough.torque_tor

  • Units: N.m
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].torque_tor

Total toroidal torque of the source

  • Units: N.m
  • Data Type: FLT_0D

distribution_sources.source[:].global_quantities[:].torque_tor_σ

error of distributionsources.source[:].globalquantities[:].torque_tor

  • Units: N.m
  • Data Type: FLT_0D

distribution_sources.source[:].gyro_type

Defines how to interpret the spatial coordinates: 1 = given at the actual particle birth point; 2 =given at the gyro centre of the birth point

  • Data Type: INT_0D

distribution_sources.source[:].markers[:].coordinate_identifier[:].description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].markers[:].coordinate_identifier[:].index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].markers[:].coordinate_identifier[:].name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].markers[:].orbit_integrals.bounce_harmonics

Array of bounce harmonics k

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].orbit_integrals.expressions

List of the expressions f(ntor,mpol,k,q,...) used in the orbit integrals

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].orbit_integrals.m_pol

Array of poloidal mode numbers, where quantities vary as exp(-i.mpol.theta) and theta is the angle defined by the choice of ../../coordinateidentifier, with its centre at the magnetic axis recalled at the root of this IDS

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].orbit_integrals.n_tor

Array of toroidal mode numbers, ntor, where quantities vary as exp(i.ntor.phi) and phi runs anticlockwise when viewed from above

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].orbit_integrals.values

Values of the orbit integrals

  • Data Type: CPX_5D
  • Coordinates: ["distribution_sources.source[:].markers[:].orbit_integrals.expressions", "distribution_sources.source[:].markers[:].weights", "distribution_sources.source[:].markers[:].orbit_integrals.n_tor", "distribution_sources.source[:].markers[:].orbit_integrals.m_pol", "distribution_sources.source[:].markers[:].orbit_integrals.bounce_harmonics"]

distribution_sources.source[:].markers[:].orbit_integrals_instant.expressions

List of the expressions f(eq) used in the orbit integrals

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].orbit_integrals_instant.time_orbit

Time array along the markers last orbit

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].orbit_integrals_instant.time_orbit_σ

error of distributionsources.source[:].markers[:].orbitintegralsinstant.timeorbit

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].orbit_integrals_instant.values

Values of the orbit integrals

  • Data Type: CPX_3D
  • Coordinates: ["distribution_sources.source[:].markers[:].orbit_integrals_instant.expressions", "distribution_sources.source[:].markers[:].weights", "distribution_sources.source[:].markers[:].orbit_integrals_instant.time_orbit"]

distribution_sources.source[:].markers[:].positions

Position of the markers in the set of coordinates. The first dimension corresponds to the number of markers, the second dimension to the set of coordinates

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distribution_sources.source[:].markers[:].weights", "distribution_sources.source[:].markers[:].coordinate_identifier"]

distribution_sources.source[:].markers[:].positions_σ

error of distribution_sources.source[:].markers[:].positions

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distribution_sources.source[:].markers[:].weights", "distribution_sources.source[:].markers[:].coordinate_identifier"]

distribution_sources.source[:].markers[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distribution_sources.source[:].markers[:].toroidal_mode

In case the orbit integrals are calculated for a given MHD perturbation, index of the toroidal mode considered. Refers to the timeslice/toroidalmode array of the MHD_LINEAR IDS in which this perturbation is described

  • Data Type: INT_0D

distribution_sources.source[:].markers[:].weights

Weight of the markers, i.e. number of real particles represented by each marker. The dimension of the vector correspond to the number of markers

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].markers[:].weights_σ

error of distribution_sources.source[:].markers[:].weights

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].process[:].nbi_beamlets_group

Index of the NBI beamlets group considered. Refers to the "unit/beamlets_group" array of the NBI IDS. 0 means sum over all beamlets groups.

  • Data Type: INT_0D

distribution_sources.source[:].process[:].nbi_energy.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].process[:].nbi_energy.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].process[:].nbi_energy.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].process[:].nbi_unit

Index of the NBI unit considered. Refers to the "unit" array of the NBI IDS. 0 means sum over all NBI units.

  • Data Type: INT_0D

distribution_sources.source[:].process[:].reactant_energy.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].process[:].reactant_energy.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].process[:].reactant_energy.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].process[:].type.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].process[:].type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].process[:].type.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].profiles_1d[:].energy

Source term for the energy transport equation

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].energy_σ

error of distributionsources.source[:].profiles1d[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.area_σ

error of distributionsources.source[:].profiles1d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.psi_σ

error of distributionsources.source[:].profiles1d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

distribution_sources.source[:].profiles_1d[:].grid.psi_boundary_σ

error of distributionsources.source[:].profiles1d[:].grid.psi_boundary

  • Units: Wb
  • Data Type: FLT_0D

distribution_sources.source[:].profiles_1d[:].grid.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

distribution_sources.source[:].profiles_1d[:].grid.psi_magnetic_axis_σ

error of distributionsources.source[:].profiles1d[:].grid.psimagneticaxis

  • Units: Wb
  • Data Type: FLT_0D

distribution_sources.source[:].profiles_1d[:].grid.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.rho_pol_norm_σ

error of distributionsources.source[:].profiles1d[:].grid.rhopolnorm

  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.rho_tor_σ

error of distributionsources.source[:].profiles1d[:].grid.rho_tor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm_σ

error of distributionsources.source[:].profiles1d[:].grid.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.source[:].profiles_1d[:].grid.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.surface_σ

error of distributionsources.source[:].profiles1d[:].grid.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].grid.volume_σ

error of distributionsources.source[:].profiles1d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].momentum_tor

Source term for the toroidal momentum equation

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].momentum_tor_σ

error of distributionsources.source[:].profiles1d[:].momentum_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].particles

Source term for the density transport equation

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].particles_σ

error of distributionsources.source[:].profiles1d[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.source[:].profiles_1d[:].grid.rho_tor_norm"]

distribution_sources.source[:].profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.element[:].a_σ

error of distribution_sources.source[:].species.ion.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distribution_sources.source[:].species.ion.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.element[:].z_n_σ

error of distributionsources.source[:].species.ion.element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.label

String identifying ion (e.g. H+, D+, T+, He+2, C+, ...)

  • Data Type: STR_0D

distribution_sources.source[:].species.ion.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distribution_sources.source[:].species.ion.state.label

String identifying ion state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distribution_sources.source[:].species.ion.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.state.vibrational_level_σ

error of distributionsources.source[:].species.ion.state.vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distribution_sources.source[:].species.ion.state.z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.state.z_max_σ

error of distributionsources.source[:].species.ion.state.zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.state.z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.state.z_min_σ

error of distributionsources.source[:].species.ion.state.zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.ion.z_ion_σ

error of distributionsources.source[:].species.ion.zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.neutral.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.neutral.element[:].a_σ

error of distribution_sources.source[:].species.neutral.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.neutral.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distribution_sources.source[:].species.neutral.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.neutral.element[:].z_n_σ

error of distributionsources.source[:].species.neutral.element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.neutral.label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

distribution_sources.source[:].species.neutral.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distribution_sources.source[:].species.neutral.state.label

String identifying neutral state

  • Data Type: STR_0D

distribution_sources.source[:].species.neutral.state.neutral_type.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].species.neutral.state.neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].species.neutral.state.neutral_type.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.source[:].species.neutral.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.neutral.state.vibrational_level_σ

error of distributionsources.source[:].species.neutral.state.vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distribution_sources.source[:].species.neutral.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distribution_sources.source[:].species.type.description

Verbose description

  • Data Type: STR_0D

distribution_sources.source[:].species.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distribution_sources.source[:].species.type.name

Short string identifier

  • Data Type: STR_0D

distribution_sources.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distribution_sources.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.time"]

distribution_sources.vacuum_toroidal_field.b0_σ

error of distributionsources.vacuumtoroidal_field.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["distribution_sources.time"]

distribution_sources.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

distribution_sources.vacuum_toroidal_field.r0_σ

error of distributionsources.vacuumtoroidal_field.r0

  • Units: m
  • Data Type: FLT_0D

distributions.code.commit

Unique commit reference of software

  • Data Type: STR_0D

distributions.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distributions.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distributions.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distributions.code.library[:].name

Name of software

  • Data Type: STR_0D

distributions.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distributions.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

distributions.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distributions.code.name

Name of software generating IDS

  • Data Type: STR_0D

distributions.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["distributions.time"]

distributions.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distributions.code.repository

URL of software repository

  • Data Type: STR_0D

distributions.code.version

Unique version (tag) of software

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].values", "1...N"]

distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].coefficients_σ

error of distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].coefficients

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].values", "1...N"]

distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].values

One scalar value is provided per element in the grid subset.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].values_σ

error of distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].values", "1...N"]

distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].coefficients_σ

error of distributions.distribution[:].ggd[:].expansionfd3v[:].gridsubset[:].coefficients

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].values", "1...N"]

distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].values

One scalar value is provided per element in the grid subset.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].values_σ

error of distributions.distribution[:].ggd[:].expansionfd3v[:].gridsubset[:].values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].jacobian_σ

error of distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].tensor_contravariant_σ

error of distributions.distribution[:].ggd[:].grid.gridsubset[:].base[:].tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].tensor_covariant_σ

error of distributions.distribution[:].ggd[:].grid.gridsubset[:].base[:].tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].dimension

Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.grid_subset[:].element[:].object[:].dimension

Dimension of the object - using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.jacobian_σ

error of distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.tensor_contravariant_σ

error of distributions.distribution[:].ggd[:].grid.gridsubset[:].metric.tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.tensor_covariant_σ

error of distributions.distribution[:].ggd[:].grid.gridsubset[:].metric.tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["distributions.distribution[:].ggd[:].grid.grid_subset[:].element", "1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.identifier.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.identifier.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: 'wall:0/descriptionggd(1)/gridggd', means that the grid is located in the wall IDS, occurrence 0, with ids path 'descriptionggd(1)/gridggd'. See the link below for more details about IDS paths

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].grid.space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.space[:].identifier.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object can possibly have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object, its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry_σ

error of distributions.distribution[:].ggd[:].grid.space[:].objectsperdimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of distributions.distribution[:].ggd[:].grid.space[:].objectsperdimension[:].object[:].geometry_2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].measure_σ

error of distributions.distribution[:].ggd[:].grid.space[:].objectsperdimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].ggd[:].temperature

Reference temperature profile used to define the local thermal energy and the thermal velocity (for normalisation of the grid coordinates)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].ggd[:].temperature_σ

error of distributions.distribution[:].ggd[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.power_fast

Collisional power to the fast particle population

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.power_fast_σ

error of distributions.distribution[:].globalquantities[:].collisions.electrons.powerfast

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.power_thermal

Collisional power to the thermal particle population

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.power_thermal_σ

error of distributions.distribution[:].globalquantities[:].collisions.electrons.powerthermal

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.torque_fast_tor

Collisional toroidal torque to the fast particle population

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].globalquantities[:].collisions.electrons.torquefast_tor

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.torque_thermal_tor

Collisional toroidal torque to the thermal particle population

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].globalquantities[:].collisions.electrons.torquethermal_tor

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].power_fast

Collisional power to the fast particle population

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].power_fast_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].powerfast

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].power_thermal

Collisional power to the thermal particle population

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].powerthermal

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].power_fast

Collisional power to the fast particle population

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].state[:].powerfast

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].power_thermal

Collisional power to the thermal particle population

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].state[:].powerthermal

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque to the fast particle population

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].state[:].torquefast_tor

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque to the thermal particle population

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].state[:].torquethermal_tor

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].torque_fast_tor

Collisional toroidal torque to the fast particle population

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].torquefast_tor

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].torque_thermal_tor

Collisional toroidal torque to the thermal particle population

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].torquethermal_tor

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].collisions.ion[:].z_ion_σ

error of distributions.distribution[:].globalquantities[:].collisions.ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].current_tor

Toroidal current driven by the distribution

  • Units: A
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].current_tor_σ

error of distributions.distribution[:].globalquantities[:].currenttor

  • Units: A
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].energy

Total energy in the distribution

  • Units: J
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].energy_σ

error of distributions.distribution[:].global_quantities[:].energy

  • Units: J
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].energy_fast

Total energy of the fast particles in the distribution

  • Units: J
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].energy_fast_σ

error of distributions.distribution[:].globalquantities[:].energyfast

  • Units: J
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].energy_fast_parallel

Parallel energy of the fast particles in the distribution

  • Units: J
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].energy_fast_parallel_σ

error of distributions.distribution[:].globalquantities[:].energyfast_parallel

  • Units: J
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].particles_fast_n

Number of fast particles in the distribution, i.e. the volume integral of the density (note: this is the number of real particles and not markers)

  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].particles_fast_n_σ

error of distributions.distribution[:].globalquantities[:].particlesfast_n

  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].particles_n

Number of particles in the distribution, i.e. the volume integral of the density (note: this is the number of real particles and not markers)

  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].particles_n_σ

error of distributions.distribution[:].globalquantities[:].particlesn

  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].source[:].identifier.process_index

Index into distribution/process

  • Data Type: INT_0D

distributions.distribution[:].global_quantities[:].source[:].identifier.type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].global_quantities[:].source[:].identifier.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].global_quantities[:].source[:].identifier.type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].global_quantities[:].source[:].identifier.wave_index

Index into distribution/wave

  • Data Type: INT_0D

distributions.distribution[:].global_quantities[:].source[:].particles

Particle source rate

  • Units: s^-1
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].source[:].particles_σ

error of distributions.distribution[:].global_quantities[:].source[:].particles

  • Units: s^-1
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].source[:].power

Total power of the source

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].source[:].power_σ

error of distributions.distribution[:].global_quantities[:].source[:].power

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].source[:].torque_tor

Total toroidal torque of the source

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].source[:].torque_tor_σ

error of distributions.distribution[:].globalquantities[:].source[:].torquetor

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].thermalisation.particles

Source rate of thermal particles due to the thermalisation of fast particles

  • Units: s^-1
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].thermalisation.particles_σ

error of distributions.distribution[:].global_quantities[:].thermalisation.particles

  • Units: s^-1
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].thermalisation.power

Power input to the thermal particle population due to the thermalisation of fast particles

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].thermalisation.power_σ

error of distributions.distribution[:].global_quantities[:].thermalisation.power

  • Units: W
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].thermalisation.torque

Torque input to the thermal particle population due to the thermalisation of fast particles

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].thermalisation.torque_σ

error of distributions.distribution[:].global_quantities[:].thermalisation.torque

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].global_quantities[:].torque_tor_j_radial_σ

error of distributions.distribution[:].globalquantities[:].torquetorjradial

  • Units: N.m
  • Data Type: FLT_0D

distributions.distribution[:].gyro_type

Defines how to interpret the spatial coordinates: 1 = given at the actual particle birth point; 2 =given at the gyro centre of the birth point

  • Data Type: INT_0D

distributions.distribution[:].is_delta_f

If isdeltaf=1, then the distribution represents the deviation from a Maxwellian; isdeltaf=0, then the distribution represents all particles, i.e. the full-f solution

  • Data Type: INT_0D

distributions.distribution[:].markers[:].coordinate_identifier[:].description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].markers[:].coordinate_identifier[:].index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].markers[:].coordinate_identifier[:].name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].markers[:].orbit_integrals.bounce_harmonics

Array of bounce harmonics k

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].orbit_integrals.expressions

List of the expressions f(ntor,mpol,k,q,...) used in the orbit integrals

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].orbit_integrals.m_pol

Array of poloidal mode numbers, where quantities vary as exp(-i.mpol.theta) and theta is the angle defined by the choice of ../../coordinateidentifier, with its centre at the magnetic axis recalled at the root of this IDS

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].orbit_integrals.n_tor

Array of toroidal mode numbers, ntor, where quantities vary as exp(i.ntor.phi) and phi runs anticlockwise when viewed from above

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].orbit_integrals.values

Values of the orbit integrals

  • Data Type: CPX_5D
  • Coordinates: ["distributions.distribution[:].markers[:].orbit_integrals.expressions", "distributions.distribution[:].markers[:].weights", "distributions.distribution[:].markers[:].orbit_integrals.n_tor", "distributions.distribution[:].markers[:].orbit_integrals.m_pol", "distributions.distribution[:].markers[:].orbit_integrals.bounce_harmonics"]

distributions.distribution[:].markers[:].orbit_integrals_instant.expressions

List of the expressions f(eq) used in the orbit integrals

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].orbit_integrals_instant.time_orbit

Time array along the markers last orbit

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].orbit_integrals_instant.time_orbit_σ

error of distributions.distribution[:].markers[:].orbitintegralsinstant.time_orbit

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].orbit_integrals_instant.values

Values of the orbit integrals

  • Data Type: CPX_3D
  • Coordinates: ["distributions.distribution[:].markers[:].orbit_integrals_instant.expressions", "distributions.distribution[:].markers[:].weights", "distributions.distribution[:].markers[:].orbit_integrals_instant.time_orbit"]

distributions.distribution[:].markers[:].positions

Position of the markers in the set of coordinates. The first dimension corresponds to the number of markers, the second dimension to the set of coordinates

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].markers[:].weights", "distributions.distribution[:].markers[:].coordinate_identifier"]

distributions.distribution[:].markers[:].positions_σ

error of distributions.distribution[:].markers[:].positions

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].markers[:].weights", "distributions.distribution[:].markers[:].coordinate_identifier"]

distributions.distribution[:].markers[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distributions.distribution[:].markers[:].toroidal_mode

In case the orbit integrals are calculated for a given MHD perturbation, index of the toroidal mode considered. Refers to the timeslice/toroidalmode array of the MHD_LINEAR IDS in which this perturbation is described

  • Data Type: INT_0D

distributions.distribution[:].markers[:].weights

Weight of the markers, i.e. number of real particles represented by each marker. The dimension of the vector correspond to the number of markers

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].markers[:].weights_σ

error of distributions.distribution[:].markers[:].weights

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].process[:].nbi_beamlets_group

Index of the NBI beamlets group considered. Refers to the "unit/beamlets_group" array of the NBI IDS. 0 means sum over all beamlets groups.

  • Data Type: INT_0D

distributions.distribution[:].process[:].nbi_energy.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].process[:].nbi_energy.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].process[:].nbi_energy.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].process[:].nbi_unit

Index of the NBI unit considered. Refers to the "unit" array of the NBI IDS. 0 means sum over all NBI units.

  • Data Type: INT_0D

distributions.distribution[:].process[:].reactant_energy.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].process[:].reactant_energy.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].process[:].reactant_energy.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].process[:].type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].process[:].type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].process[:].type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.electrons.power_fast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.electrons.power_thermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.electrons.torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.electrons.torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].state[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].state[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].state[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].state[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles1d[:].copassing.collisions.ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].co_passing.current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.current_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.currentfasttor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.current_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.current_tor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.density_σ

error of distributions.distribution[:].profiles1d[:].copassing.density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.density_fast_σ

error of distributions.distribution[:].profiles1d[:].copassing.density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.pressure_σ

error of distributions.distribution[:].profiles1d[:].copassing.pressure

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.pressure_fast_σ

error of distributions.distribution[:].profiles1d[:].copassing.pressure_fast

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.pressure_fast_parallel_σ

error of distributions.distribution[:].profiles1d[:].copassing.pressurefastparallel

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.source[:].energy

Source rate of energy density

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.source[:].energy_σ

error of distributions.distribution[:].profiles1d[:].copassing.source[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.process_index

Index into distribution/process

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.wave_index

Index into distribution/wave

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].co_passing.source[:].momentum_tor

Source rate of toroidal angular momentum density

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.source[:].momentum_tor_σ

error of distributions.distribution[:].profiles1d[:].copassing.source[:].momentum_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.source[:].particles

Source rate of thermal particle density

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.source[:].particles_σ

error of distributions.distribution[:].profiles1d[:].copassing.source[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].co_passing.torque_tor_j_radial_σ

error of distributions.distribution[:].profiles1d[:].copassing.torquetorj_radial

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles1d[:].collisions.electrons.powerfast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles1d[:].collisions.electrons.powerthermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].collisions.electrons.torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].collisions.electrons.torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].state[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].state[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].state[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].state[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles1d[:].collisions.ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.electrons.power_fast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.electrons.power_thermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.electrons.torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.electrons.torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].state[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].state[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].state[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].state[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.collisions.ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.current_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.currentfasttor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.current_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.current_tor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.density_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.density_fast_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.pressure_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.pressure

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.pressure_fast_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.pressure_fast

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.pressure_fast_parallel_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.pressurefastparallel

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].energy

Source rate of energy density

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].energy_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.source[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.process_index

Index into distribution/process

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.wave_index

Index into distribution/wave

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].momentum_tor

Source rate of toroidal angular momentum density

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].momentum_tor_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.source[:].momentum_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].particles

Source rate of thermal particle density

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.source[:].particles_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.source[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].counter_passing.torque_tor_j_radial_σ

error of distributions.distribution[:].profiles1d[:].counterpassing.torquetorj_radial

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].current_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].currentfast_tor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].current_tor_σ

error of distributions.distribution[:].profiles1d[:].currenttor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].density_σ

error of distributions.distribution[:].profiles_1d[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].density_fast_σ

error of distributions.distribution[:].profiles1d[:].densityfast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].fast_filter.energy

Energy at which the fast and thermal particle populations were separated, as a function of radius

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].fast_filter.energy_σ

error of distributions.distribution[:].profiles1d[:].fastfilter.energy

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].fast_filter.method.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].fast_filter.method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].fast_filter.method.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.area_σ

error of distributions.distribution[:].profiles_1d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.psi_σ

error of distributions.distribution[:].profiles_1d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].grid.psi_boundary_σ

error of distributions.distribution[:].profiles1d[:].grid.psiboundary

  • Units: Wb
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].grid.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].grid.psi_magnetic_axis_σ

error of distributions.distribution[:].profiles1d[:].grid.psimagnetic_axis

  • Units: Wb
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].grid.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis)) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.rho_pol_norm_σ

error of distributions.distribution[:].profiles1d[:].grid.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.rho_tor_σ

error of distributions.distribution[:].profiles1d[:].grid.rhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm_σ

error of distributions.distribution[:].profiles1d[:].grid.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_1d[:].grid.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.surface_σ

error of distributions.distribution[:].profiles_1d[:].grid.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].grid.volume_σ

error of distributions.distribution[:].profiles_1d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].pressure_σ

error of distributions.distribution[:].profiles_1d[:].pressure

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].pressure_fast_σ

error of distributions.distribution[:].profiles1d[:].pressurefast

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].pressure_fast_parallel_σ

error of distributions.distribution[:].profiles1d[:].pressurefast_parallel

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].source[:].energy

Source rate of energy density

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].source[:].energy_σ

error of distributions.distribution[:].profiles_1d[:].source[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].source[:].identifier.process_index

Index into distribution/process

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].source[:].identifier.type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].source[:].identifier.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].source[:].identifier.type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].source[:].identifier.wave_index

Index into distribution/wave

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].source[:].momentum_tor

Source rate of toroidal angular momentum density

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].source[:].momentum_tor_σ

error of distributions.distribution[:].profiles1d[:].source[:].momentumtor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].source[:].particles

Source rate of thermal particle density

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].source[:].particles_σ

error of distributions.distribution[:].profiles_1d[:].source[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].thermalisation.energy

Source rate of energy density within the thermal particle population due to the thermalisation of fast particles

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].thermalisation.energy_σ

error of distributions.distribution[:].profiles_1d[:].thermalisation.energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].thermalisation.momentum_tor

Source rate of toroidal angular momentum density within the thermal particle population due to the thermalisation of fast particles

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].thermalisation.momentum_tor_σ

error of distributions.distribution[:].profiles1d[:].thermalisation.momentumtor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].thermalisation.particles

Source rate of thermal particle density due to the thermalisation of fast particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].thermalisation.particles_σ

error of distributions.distribution[:].profiles_1d[:].thermalisation.particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].torque_tor_j_radial_σ

error of distributions.distribution[:].profiles1d[:].torquetorjradial

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.electrons.powerfast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.electrons.powerthermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.electrons.torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.electrons.torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].state[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].state[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].state[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].state[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles1d[:].trapped.collisions.ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_1d[:].trapped.current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.current_fast_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.currentfast_tor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.current_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.currenttor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.density_σ

error of distributions.distribution[:].profiles_1d[:].trapped.density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.density_fast_σ

error of distributions.distribution[:].profiles1d[:].trapped.densityfast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.pressure_σ

error of distributions.distribution[:].profiles_1d[:].trapped.pressure

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.pressure_fast_σ

error of distributions.distribution[:].profiles1d[:].trapped.pressurefast

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.pressure_fast_parallel_σ

error of distributions.distribution[:].profiles1d[:].trapped.pressurefast_parallel

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.source[:].energy

Source rate of energy density

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.source[:].energy_σ

error of distributions.distribution[:].profiles_1d[:].trapped.source[:].energy

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.process_index

Index into distribution/process

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.wave_index

Index into distribution/wave

  • Data Type: INT_0D

distributions.distribution[:].profiles_1d[:].trapped.source[:].momentum_tor

Source rate of toroidal angular momentum density

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.source[:].momentum_tor_σ

error of distributions.distribution[:].profiles1d[:].trapped.source[:].momentumtor

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.source[:].particles

Source rate of thermal particle density

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.source[:].particles_σ

error of distributions.distribution[:].profiles_1d[:].trapped.source[:].particles

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_1d[:].trapped.torque_tor_j_radial_σ

error of distributions.distribution[:].profiles1d[:].trapped.torquetorjradial

  • Units: N.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.electrons.power_fast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.electrons.power_thermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.electrons.torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.electrons.torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].state[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].state[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].state[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].state[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles2d[:].copassing.collisions.ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].co_passing.current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.current_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.currentfasttor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.current_tor_σ

error of distributions.distribution[:].profiles2d[:].copassing.current_tor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.density_σ

error of distributions.distribution[:].profiles2d[:].copassing.density

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.density_fast_σ

error of distributions.distribution[:].profiles2d[:].copassing.density_fast

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.pressure_σ

error of distributions.distribution[:].profiles2d[:].copassing.pressure

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.pressure_fast_σ

error of distributions.distribution[:].profiles2d[:].copassing.pressure_fast

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.pressure_fast_parallel_σ

error of distributions.distribution[:].profiles2d[:].copassing.pressurefastparallel

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].co_passing.torque_tor_j_radial_σ

error of distributions.distribution[:].profiles2d[:].copassing.torquetorj_radial

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles2d[:].collisions.electrons.powerfast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles2d[:].collisions.electrons.powerthermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].collisions.electrons.torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].collisions.electrons.torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].state[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].state[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].state[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].state[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles2d[:].collisions.ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.electrons.power_fast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.electrons.power_thermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.electrons.torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.electrons.torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].state[:].power_fast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].state[:].power_thermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].state[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].state[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].torquefasttor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].torquethermaltor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.collisions.ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].counter_passing.current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.current_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.currentfasttor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.current_tor_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.current_tor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.density_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.density

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.density_fast_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.density_fast

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.pressure_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.pressure

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.pressure_fast_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.pressure_fast

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.pressure_fast_parallel_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.pressurefastparallel

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].counter_passing.torque_tor_j_radial_σ

error of distributions.distribution[:].profiles2d[:].counterpassing.torquetorj_radial

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].current_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].currentfast_tor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].current_tor_σ

error of distributions.distribution[:].profiles2d[:].currenttor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].density_σ

error of distributions.distribution[:].profiles_2d[:].density

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].density_fast_σ

error of distributions.distribution[:].profiles2d[:].densityfast

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.area_σ

error of distributions.distribution[:].profiles_2d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.psi_σ

error of distributions.distribution[:].profiles_2d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.r_σ

error of distributions.distribution[:].profiles_2d[:].grid.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.rho_tor

Toroidal flux coordinate. The toroidal field used in its definition is indicated under vacuumtoroidalfield/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.rho_tor_σ

error of distributions.distribution[:].profiles2d[:].grid.rhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation)

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm_σ

error of distributions.distribution[:].profiles2d[:].grid.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.theta_geometric

Geometrical poloidal angle

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.theta_geometric_σ

error of distributions.distribution[:].profiles2d[:].grid.thetageometric

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.theta_straight

Straight field line poloidal angle

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.theta_straight_σ

error of distributions.distribution[:].profiles2d[:].grid.thetastraight

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].grid.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].grid.type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.volume_σ

error of distributions.distribution[:].profiles_2d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm"]

distributions.distribution[:].profiles_2d[:].grid.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].grid.z_σ

error of distributions.distribution[:].profiles_2d[:].grid.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.distribution[:].profiles_2d[:].pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].pressure_σ

error of distributions.distribution[:].profiles_2d[:].pressure

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].pressure_fast_σ

error of distributions.distribution[:].profiles2d[:].pressurefast

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].pressure_fast_parallel_σ

error of distributions.distribution[:].profiles2d[:].pressurefast_parallel

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].torque_tor_j_radial_σ

error of distributions.distribution[:].profiles2d[:].torquetorjradial

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.power_fast_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.electrons.powerfast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.power_thermal_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.electrons.powerthermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.electrons.torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.electrons.torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].a_σ

error of distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].z_n_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].label

String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].power_fast

Collisional power density to the fast particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].power_fast_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].state[:].powerfast

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].power_thermal

Collisional power density to the thermal particle population

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].power_thermal_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].state[:].powerthermal

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].state[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].state[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].vibrational_level_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].z_max_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].z_min_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].torque_fast_tor

Collisional toroidal torque density to the fast particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].torque_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].torquefast_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].torque_thermal_tor

Collisional toroidal torque density to the thermal particle population

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].torque_thermal_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].torquethermal_tor

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].z_ion_σ

error of distributions.distribution[:].profiles2d[:].trapped.collisions.ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].profiles_2d[:].trapped.current_fast_tor

Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.current_fast_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.currentfast_tor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.current_tor

Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.current_tor_σ

error of distributions.distribution[:].profiles2d[:].trapped.currenttor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.density_σ

error of distributions.distribution[:].profiles_2d[:].trapped.density

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.density_fast

Density of fast particles

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.density_fast_σ

error of distributions.distribution[:].profiles2d[:].trapped.densityfast

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.pressure

Pressure (thermal+non-thermal)

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.pressure_σ

error of distributions.distribution[:].profiles_2d[:].trapped.pressure

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.pressure_fast

Pressure of fast particles

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.pressure_fast_σ

error of distributions.distribution[:].profiles2d[:].trapped.pressurefast

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.pressure_fast_parallel

Pressure of fast particles in the parallel direction

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.pressure_fast_parallel_σ

error of distributions.distribution[:].profiles2d[:].trapped.pressurefast_parallel

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.torque_tor_j_radial

Toroidal torque due to radial currents

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].profiles_2d[:].trapped.torque_tor_j_radial_σ

error of distributions.distribution[:].profiles2d[:].trapped.torquetorjradial

  • Units: N.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["distributions.distribution[:].profiles_2d[:].grid.r", "distributions.distribution[:].profiles_2d[:].grid.z"]

distributions.distribution[:].species.ion.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.element[:].a_σ

error of distributions.distribution[:].species.ion.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].species.ion.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.element[:].z_n_σ

error of distributions.distribution[:].species.ion.element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.label

String identifying ion (e.g. H+, D+, T+, He+2, C+, ...)

  • Data Type: STR_0D

distributions.distribution[:].species.ion.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].species.ion.state.label

String identifying ion state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

distributions.distribution[:].species.ion.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.state.vibrational_level_σ

error of distributions.distribution[:].species.ion.state.vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].species.ion.state.z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.state.z_max_σ

error of distributions.distribution[:].species.ion.state.z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.state.z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.state.z_min_σ

error of distributions.distribution[:].species.ion.state.z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.ion.z_ion_σ

error of distributions.distribution[:].species.ion.z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.neutral.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.neutral.element[:].a_σ

error of distributions.distribution[:].species.neutral.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.neutral.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

distributions.distribution[:].species.neutral.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.neutral.element[:].z_n_σ

error of distributions.distribution[:].species.neutral.element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.neutral.label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

distributions.distribution[:].species.neutral.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

distributions.distribution[:].species.neutral.state.label

String identifying neutral state

  • Data Type: STR_0D

distributions.distribution[:].species.neutral.state.neutral_type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].species.neutral.state.neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].species.neutral.state.neutral_type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].species.neutral.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.neutral.state.vibrational_level_σ

error of distributions.distribution[:].species.neutral.state.vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

distributions.distribution[:].species.neutral.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

distributions.distribution[:].species.type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].species.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].species.type.name

Short string identifier

  • Data Type: STR_0D

distributions.distribution[:].wave[:].antenna_name

Name of the antenna that launches this wave. Corresponds to the name specified in antennas/ec(i)/name, or antennas/ic(i)/name or antennas/lh(i)/name (depends of antenna/wave type) in the ANTENNAS IDS.

  • Data Type: STR_0D

distributions.distribution[:].wave[:].index_in_antenna

Index of the wave (starts at 1), separating different waves generated from a single antenna.

  • Data Type: INT_0D

distributions.distribution[:].wave[:].type.description

Verbose description

  • Data Type: STR_0D

distributions.distribution[:].wave[:].type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.distribution[:].wave[:].type.name

Short string identifier

  • Data Type: STR_0D

distributions.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

distributions.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

distributions.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

distributions.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

distributions.ids_properties.occurrence

N/A

  • Data Type: INT_0D

distributions.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

distributions.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

distributions.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

distributions.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

distributions.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

distributions.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

distributions.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

distributions.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

distributions.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

distributions.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

distributions.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

distributions.magnetic_axis.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.time"]

distributions.magnetic_axis.r_σ

error of distributions.magnetic_axis.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.time"]

distributions.magnetic_axis.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.time"]

distributions.magnetic_axis.z_σ

error of distributions.magnetic_axis.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["distributions.time"]

distributions.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

distributions.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["distributions.time"]

distributions.vacuum_toroidal_field.b0_σ

error of distributions.vacuumtoroidalfield.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["distributions.time"]

distributions.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

distributions.vacuum_toroidal_field.r0_σ

error of distributions.vacuumtoroidalfield.r0

  • Units: m
  • Data Type: FLT_0D

divertors.code.commit

Unique commit reference of software

  • Data Type: STR_0D

divertors.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

divertors.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

divertors.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

divertors.code.library[:].name

Name of software

  • Data Type: STR_0D

divertors.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

divertors.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

divertors.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

divertors.code.name

Name of software generating IDS

  • Data Type: STR_0D

divertors.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["divertors.time"]

divertors.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

divertors.code.repository

URL of software repository

  • Data Type: STR_0D

divertors.code.version

Unique version (tag) of software

  • Data Type: STR_0D

divertors.divertor[:].current_incident.data

Data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].current_incident.time"]

divertors.divertor[:].current_incident.data_σ

error of divertors.divertor[:].current_incident.data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].current_incident.time"]

divertors.divertor[:].current_incident.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].identifier

Alphanumeric identifier of divertor

  • Data Type: STR_0D

divertors.divertor[:].name

Name of the divertor

  • Data Type: STR_0D

divertors.divertor[:].particle_flux_recycled_total.data

Data

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].particle_flux_recycled_total.time"]

divertors.divertor[:].particle_flux_recycled_total.data_σ

error of divertors.divertor[:].particlefluxrecycled_total.data

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].particle_flux_recycled_total.time"]

divertors.divertor[:].particle_flux_recycled_total.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_black_body.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_black_body.time"]

divertors.divertor[:].power_black_body.data_σ

error of divertors.divertor[:].powerblackbody.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_black_body.time"]

divertors.divertor[:].power_black_body.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_conducted.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_conducted.time"]

divertors.divertor[:].power_conducted.data_σ

error of divertors.divertor[:].power_conducted.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_conducted.time"]

divertors.divertor[:].power_conducted.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_convected.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_convected.time"]

divertors.divertor[:].power_convected.data_σ

error of divertors.divertor[:].power_convected.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_convected.time"]

divertors.divertor[:].power_convected.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_currents.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_currents.time"]

divertors.divertor[:].power_currents.data_σ

error of divertors.divertor[:].power_currents.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_currents.time"]

divertors.divertor[:].power_currents.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_incident.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_incident.time"]

divertors.divertor[:].power_incident.data_σ

error of divertors.divertor[:].power_incident.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_incident.time"]

divertors.divertor[:].power_incident.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_neutrals.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_neutrals.time"]

divertors.divertor[:].power_neutrals.data_σ

error of divertors.divertor[:].power_neutrals.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_neutrals.time"]

divertors.divertor[:].power_neutrals.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_radiated.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_radiated.time"]

divertors.divertor[:].power_radiated.data_σ

error of divertors.divertor[:].power_radiated.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_radiated.time"]

divertors.divertor[:].power_radiated.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_recombination_neutrals.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_recombination_neutrals.time"]

divertors.divertor[:].power_recombination_neutrals.data_σ

error of divertors.divertor[:].powerrecombinationneutrals.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_recombination_neutrals.time"]

divertors.divertor[:].power_recombination_neutrals.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_recombination_plasma.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_recombination_plasma.time"]

divertors.divertor[:].power_recombination_plasma.data_σ

error of divertors.divertor[:].powerrecombinationplasma.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_recombination_plasma.time"]

divertors.divertor[:].power_recombination_plasma.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].power_thermal_extracted.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_thermal_extracted.time"]

divertors.divertor[:].power_thermal_extracted.data_σ

error of divertors.divertor[:].powerthermalextracted.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].power_thermal_extracted.time"]

divertors.divertor[:].power_thermal_extracted.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].current_incident.data

Data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].current_incident.time"]

divertors.divertor[:].target[:].current_incident.data_σ

error of divertors.divertor[:].target[:].current_incident.data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].current_incident.time"]

divertors.divertor[:].target[:].current_incident.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].extension_r

Target length projected on the major radius axis

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].extension_r_σ

error of divertors.divertor[:].target[:].extension_r

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].extension_z

Target length projected on the height axis

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].extension_z_σ

error of divertors.divertor[:].target[:].extension_z

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].flux_expansion.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].flux_expansion.time"]

divertors.divertor[:].target[:].flux_expansion.data_σ

error of divertors.divertor[:].target[:].flux_expansion.data

  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].flux_expansion.time"]

divertors.divertor[:].target[:].flux_expansion.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].heat_flux_steady_limit_max

Maximum steady state heat flux allowed on divertor target surface (engineering design limit)

  • Units: W.m^-2
  • Data Type: FLT_0D

divertors.divertor[:].target[:].heat_flux_steady_limit_max_σ

error of divertors.divertor[:].target[:].heatfluxsteadylimitmax

  • Units: W.m^-2
  • Data Type: FLT_0D

divertors.divertor[:].target[:].identifier

Alphanumeric identifier of target

  • Data Type: STR_0D

divertors.divertor[:].target[:].name

Name of the target

  • Data Type: STR_0D

divertors.divertor[:].target[:].power_black_body.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_black_body.time"]

divertors.divertor[:].target[:].power_black_body.data_σ

error of divertors.divertor[:].target[:].powerblackbody.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_black_body.time"]

divertors.divertor[:].target[:].power_black_body.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_conducted.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_conducted.time"]

divertors.divertor[:].target[:].power_conducted.data_σ

error of divertors.divertor[:].target[:].power_conducted.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_conducted.time"]

divertors.divertor[:].target[:].power_conducted.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_convected.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_convected.time"]

divertors.divertor[:].target[:].power_convected.data_σ

error of divertors.divertor[:].target[:].power_convected.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_convected.time"]

divertors.divertor[:].target[:].power_convected.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_currents.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_currents.time"]

divertors.divertor[:].target[:].power_currents.data_σ

error of divertors.divertor[:].target[:].power_currents.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_currents.time"]

divertors.divertor[:].target[:].power_currents.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_flux_peak.data

Data

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_flux_peak.time"]

divertors.divertor[:].target[:].power_flux_peak.data_σ

error of divertors.divertor[:].target[:].powerfluxpeak.data

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_flux_peak.time"]

divertors.divertor[:].target[:].power_flux_peak.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_incident.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_incident.time"]

divertors.divertor[:].target[:].power_incident.data_σ

error of divertors.divertor[:].target[:].power_incident.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_incident.time"]

divertors.divertor[:].target[:].power_incident.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_incident_fraction.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_incident_fraction.time"]

divertors.divertor[:].target[:].power_incident_fraction.data_σ

error of divertors.divertor[:].target[:].powerincidentfraction.data

  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_incident_fraction.time"]

divertors.divertor[:].target[:].power_incident_fraction.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_neutrals.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_neutrals.time"]

divertors.divertor[:].target[:].power_neutrals.data_σ

error of divertors.divertor[:].target[:].power_neutrals.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_neutrals.time"]

divertors.divertor[:].target[:].power_neutrals.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_radiated.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_radiated.time"]

divertors.divertor[:].target[:].power_radiated.data_σ

error of divertors.divertor[:].target[:].power_radiated.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_radiated.time"]

divertors.divertor[:].target[:].power_radiated.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_recombination_neutrals.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_recombination_neutrals.time"]

divertors.divertor[:].target[:].power_recombination_neutrals.data_σ

error of divertors.divertor[:].target[:].powerrecombinationneutrals.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_recombination_neutrals.time"]

divertors.divertor[:].target[:].power_recombination_neutrals.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].power_recombination_plasma.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_recombination_plasma.time"]

divertors.divertor[:].target[:].power_recombination_plasma.data_σ

error of divertors.divertor[:].target[:].powerrecombinationplasma.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].power_recombination_plasma.time"]

divertors.divertor[:].target[:].power_recombination_plasma.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].t_e_target_sputtering_limit_max

Maximum plasma temperature allowed on the divertor target to avoid excessive sputtering

  • Units: eV
  • Data Type: FLT_0D

divertors.divertor[:].target[:].t_e_target_sputtering_limit_max_σ

error of divertors.divertor[:].target[:].tetargetsputteringlimit_max

  • Units: eV
  • Data Type: FLT_0D

divertors.divertor[:].target[:].temperature_limit_max

Maximum surface target temperature allowed to prevent damage (melting, recrystallization, sublimation, etc...)

  • Units: K
  • Data Type: FLT_0D

divertors.divertor[:].target[:].temperature_limit_max_σ

error of divertors.divertor[:].target[:].temperaturelimitmax

  • Units: K
  • Data Type: FLT_0D

divertors.divertor[:].target[:].tile[:].current_incident.data

Data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tile[:].current_incident.time"]

divertors.divertor[:].target[:].tile[:].current_incident.data_σ

error of divertors.divertor[:].target[:].tile[:].current_incident.data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tile[:].current_incident.time"]

divertors.divertor[:].target[:].tile[:].current_incident.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].tile[:].identifier

Alphanumeric identifier of tile

  • Data Type: STR_0D

divertors.divertor[:].target[:].tile[:].name

Name of the tile

  • Data Type: STR_0D

divertors.divertor[:].target[:].tile[:].shunt_index

If the tile carries a measurement shunt, index of that shunt (in the magnetics IDS shunt array)

  • Data Type: INT_0D

divertors.divertor[:].target[:].tile[:].surface_area

Area of the tile surface facing the plasma

  • Units: m^2
  • Data Type: FLT_0D

divertors.divertor[:].target[:].tile[:].surface_area_σ

error of divertors.divertor[:].target[:].tile[:].surface_area

  • Units: m^2
  • Data Type: FLT_0D

divertors.divertor[:].target[:].tile[:].surface_outline.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tile[:].surface_outline.r"]

divertors.divertor[:].target[:].tile[:].surface_outline.phi_σ

error of divertors.divertor[:].target[:].tile[:].surface_outline.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tile[:].surface_outline.r"]

divertors.divertor[:].target[:].tile[:].surface_outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].tile[:].surface_outline.r_σ

error of divertors.divertor[:].target[:].tile[:].surface_outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].tile[:].surface_outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tile[:].surface_outline.r"]

divertors.divertor[:].target[:].tile[:].surface_outline.z_σ

error of divertors.divertor[:].target[:].tile[:].surface_outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tile[:].surface_outline.r"]

divertors.divertor[:].target[:].tilt_angle_pol.data

Data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tilt_angle_pol.time"]

divertors.divertor[:].target[:].tilt_angle_pol.data_σ

error of divertors.divertor[:].target[:].tiltanglepol.data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tilt_angle_pol.time"]

divertors.divertor[:].target[:].tilt_angle_pol.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].tilt_angle_tor.data

Data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tilt_angle_tor.time"]

divertors.divertor[:].target[:].tilt_angle_tor.data_σ

error of divertors.divertor[:].target[:].tiltangletor.data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].tilt_angle_tor.time"]

divertors.divertor[:].target[:].tilt_angle_tor.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].target[:].two_point_model[:].n_e_target

Electron density at divertor target

  • Units: m^-3
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].n_e_target_σ

error of divertors.divertor[:].target[:].twopointmodel[:].netarget

  • Units: m^-3
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].sol_heat_decay_length

Heat flux decay length in SOL at divertor entrance, mapped to the mid-plane, this is the lambda_q parameter defined in reference T. Eich et al, Nucl. Fusion 53 (2013) 093031

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].sol_heat_decay_length_σ

error of divertors.divertor[:].target[:].twopointmodel[:].solheatdecay_length

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].sol_heat_spreading_length

Heat flux spreading length in SOL at equatorial mid-plane, this is the S power spreading parameter defined in reference T. Eich et al, Nucl. Fusion 53 (2013) 093031. Relevant only for attached plasmas.

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].sol_heat_spreading_length_σ

error of divertors.divertor[:].target[:].twopointmodel[:].solheatspreading_length

  • Units: m
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].t_e_target

Electron temperature at divertor target

  • Units: eV
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].t_e_target_σ

error of divertors.divertor[:].target[:].twopointmodel[:].tetarget

  • Units: eV
  • Data Type: FLT_0D

divertors.divertor[:].target[:].two_point_model[:].time

Time

  • Units: s
  • Data Type: FLT_0D

divertors.divertor[:].target[:].wetted_area.data

Data

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].wetted_area.time"]

divertors.divertor[:].target[:].wetted_area.data_σ

error of divertors.divertor[:].target[:].wetted_area.data

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].target[:].wetted_area.time"]

divertors.divertor[:].target[:].wetted_area.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.divertor[:].wetted_area.data

Data

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].wetted_area.time"]

divertors.divertor[:].wetted_area.data_σ

error of divertors.divertor[:].wetted_area.data

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["divertors.divertor[:].wetted_area.time"]

divertors.divertor[:].wetted_area.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

divertors.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

divertors.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

divertors.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

divertors.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

divertors.ids_properties.occurrence

N/A

  • Data Type: INT_0D

divertors.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

divertors.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

divertors.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

divertors.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

divertors.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

divertors.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

divertors.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

divertors.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

divertors.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

divertors.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

divertors.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

divertors.midplane.description

Verbose description

  • Data Type: STR_0D

divertors.midplane.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

divertors.midplane.name

Short string identifier

  • Data Type: STR_0D

divertors.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ec_launchers.beam[:].available_launch_power

Available launch power

  • Units: W
  • Data Type: FLT_0D

ec_launchers.beam[:].available_launch_power_σ

error of eclaunchers.beam[:].availablelaunch_power

  • Units: W
  • Data Type: FLT_0D

ec_launchers.beam[:].efficiency.conversion

Conversion efficiency of electric power to microwave power

  • Data Type: FLT_0D

ec_launchers.beam[:].efficiency.conversion_σ

error of ec_launchers.beam[:].efficiency.conversion

  • Data Type: FLT_0D

ec_launchers.beam[:].efficiency.transmission

Transmission efficiency of microwave power from generator to antenna

  • Data Type: FLT_0D

ec_launchers.beam[:].efficiency.transmission_σ

error of ec_launchers.beam[:].efficiency.transmission

  • Data Type: FLT_0D

ec_launchers.beam[:].frequency.data

Data

  • Units: Hz
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].frequency.time"]

ec_launchers.beam[:].frequency.data_σ

error of ec_launchers.beam[:].frequency.data

  • Units: Hz
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].frequency.time"]

ec_launchers.beam[:].frequency.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ec_launchers.beam[:].identifier

Beam identifier

  • Data Type: STR_0D

ec_launchers.beam[:].launching_position.phi

Toroidal angle

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].launching_position.phi_σ

error of eclaunchers.beam[:].launchingposition.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].launching_position.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].launching_position.r_σ

error of eclaunchers.beam[:].launchingposition.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].launching_position.r_limit_max

Major radius upper limit for the system

  • Units: m
  • Data Type: FLT_0D

ec_launchers.beam[:].launching_position.r_limit_max_σ

error of eclaunchers.beam[:].launchingposition.rlimitmax

  • Units: m
  • Data Type: FLT_0D

ec_launchers.beam[:].launching_position.r_limit_min

Major radius lower limit for the system

  • Units: m
  • Data Type: FLT_0D

ec_launchers.beam[:].launching_position.r_limit_min_σ

error of eclaunchers.beam[:].launchingposition.rlimitmin

  • Units: m
  • Data Type: FLT_0D

ec_launchers.beam[:].launching_position.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].launching_position.z_σ

error of eclaunchers.beam[:].launchingposition.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].mode

Identifier for the main plasma wave mode excited by the EC beam. For the ordinary mode (O-mode), mode=1. For the extraordinary mode (X-mode), mode=-1

  • Data Type: INT_0D

ec_launchers.beam[:].name

Beam name

  • Data Type: STR_0D

ec_launchers.beam[:].o_mode_fraction

Fraction of EC beam power launched in ordinary (O) mode. If all power is launched in ordinary mode (O-mode), omodefraction = 1.0. If all power is launched in extraordinary mode (X-mode), omodefraction = 0.0

  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].o_mode_fraction_σ

error of eclaunchers.beam[:].omode_fraction

  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].phase.angle

Rotation angle for the phase ellipse

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].phase.angle_σ

error of ec_launchers.beam[:].phase.angle

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].phase.curvature

Inverse curvature radii for the phase ellipse, positive/negative for divergent/convergent beams, in the horizontal direction (first index of the first coordinate) and in the vertical direction (second index of the first coordinate)

  • Units: m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...2", "ec_launchers.beam[:].time"]

ec_launchers.beam[:].phase.curvature_σ

error of ec_launchers.beam[:].phase.curvature

  • Units: m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...2", "ec_launchers.beam[:].time"]

ec_launchers.beam[:].power_launched.data

Data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].power_launched.time"]

ec_launchers.beam[:].power_launched.data_σ

error of eclaunchers.beam[:].powerlaunched.data

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].power_launched.time"]

ec_launchers.beam[:].power_launched.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ec_launchers.beam[:].spot.angle

Rotation angle for the spot ellipse

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].spot.angle_σ

error of ec_launchers.beam[:].spot.angle

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].spot.size

Size of the spot ellipse: distance between the central ray and the peripheral rays in the horizontal (first index of the first coordinate) and vertical direction (second index of the first coordinate)

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...2", "ec_launchers.beam[:].time"]

ec_launchers.beam[:].spot.size_σ

error of ec_launchers.beam[:].spot.size

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...2", "ec_launchers.beam[:].time"]

ec_launchers.beam[:].steering_angle_pol

Steering angle of the EC beam in the R,Z plane (from the -R axis towards the -Z axis), anglepol=atan2(-kZ,-kR), where kZ and k_R are the Z and R components of the mean wave vector in the EC beam

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].steering_angle_pol_σ

error of eclaunchers.beam[:].steeringangle_pol

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].steering_angle_tor

Steering angle of the EC beam away from the poloidal plane that is increasing towards the positive phi axis, angletor=arcsin(kphi/k), where k_phi is the component of the wave vector in the phi direction and k is the length of the wave vector. Here the term wave vector refers to the mean wave vector in the EC beam

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].steering_angle_tor_σ

error of eclaunchers.beam[:].steeringangle_tor

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ec_launchers.beam[:].time"]

ec_launchers.beam[:].time

Time base used for launchingposition, omode_fraction, angle, spot and phase quantities

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ec_launchers.code.commit

Unique commit reference of software

  • Data Type: STR_0D

ec_launchers.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ec_launchers.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ec_launchers.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ec_launchers.code.library[:].name

Name of software

  • Data Type: STR_0D

ec_launchers.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ec_launchers.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

ec_launchers.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ec_launchers.code.name

Name of software generating IDS

  • Data Type: STR_0D

ec_launchers.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["ec_launchers.time"]

ec_launchers.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ec_launchers.code.repository

URL of software repository

  • Data Type: STR_0D

ec_launchers.code.version

Unique version (tag) of software

  • Data Type: STR_0D

ec_launchers.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

ec_launchers.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

ec_launchers.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

ec_launchers.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

ec_launchers.ids_properties.occurrence

N/A

  • Data Type: INT_0D

ec_launchers.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

ec_launchers.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ec_launchers.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

ec_launchers.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ec_launchers.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

ec_launchers.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

ec_launchers.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

ec_launchers.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

ec_launchers.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

ec_launchers.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

ec_launchers.latency

Upper bound of the delay between input command received from the RT network and actuator starting to react. Applies globally to the system described by this IDS unless specific latencies (e.g. channel-specific or antenna-specific) are provided at a deeper level in the IDS structure.

  • Units: s
  • Data Type: FLT_0D

ec_launchers.latency_σ

error of ec_launchers.latency

  • Units: s
  • Data Type: FLT_0D

ec_launchers.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.channel[:].beam.phase.angle.data

Data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].beam.phase.angle.time"]

ece.channel[:].beam.phase.angle.data_σ

error of ece.channel[:].beam.phase.angle.data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].beam.phase.angle.time"]

ece.channel[:].beam.phase.angle.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.channel[:].beam.phase.curvature.data

Data

  • Units: m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "ece.channel[:].beam.phase.curvature.time"]

ece.channel[:].beam.phase.curvature.data_σ

error of ece.channel[:].beam.phase.curvature.data

  • Units: m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "ece.channel[:].beam.phase.curvature.time"]

ece.channel[:].beam.phase.curvature.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.channel[:].beam.spot.angle.data

Data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].beam.spot.angle.time"]

ece.channel[:].beam.spot.angle.data_σ

error of ece.channel[:].beam.spot.angle.data

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].beam.spot.angle.time"]

ece.channel[:].beam.spot.angle.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.channel[:].beam.spot.size.data

Data

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "ece.channel[:].beam.spot.size.time"]

ece.channel[:].beam.spot.size.data_σ

error of ece.channel[:].beam.spot.size.data

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "ece.channel[:].beam.spot.size.time"]

ece.channel[:].beam.spot.size.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.channel[:].delta_position_suprathermal.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.phi_σ

error of ece.channel[:].deltapositionsuprathermal.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.psi

Poloidal flux

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.psi_σ

error of ece.channel[:].deltapositionsuprathermal.psi

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.r_σ

error of ece.channel[:].deltapositionsuprathermal.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.rho_tor_norm

Normalised toroidal flux coordinate

  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.rho_tor_norm_σ

error of ece.channel[:].deltapositionsuprathermal.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.theta

Poloidal angle (oriented clockwise when viewing the poloidal cross section on the right hand side of the tokamak axis of symmetry, with the origin placed on the plasma magnetic axis)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.theta_σ

error of ece.channel[:].deltapositionsuprathermal.theta

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].delta_position_suprathermal.z_σ

error of ece.channel[:].deltapositionsuprathermal.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].frequency.data

Data

  • Units: Hz
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].frequency.data_σ

error of ece.channel[:].frequency.data

  • Units: Hz
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].frequency.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

ece.channel[:].frequency.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].harmonic.data

Data

  • Data Type: INT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].harmonic.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

ece.channel[:].harmonic.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].identifier

ID of the channel

  • Data Type: STR_0D

ece.channel[:].if_bandwidth

Full-width of the Intermediate Frequency (IF) bandpass filter

  • Units: Hz
  • Data Type: FLT_0D

ece.channel[:].if_bandwidth_σ

error of ece.channel[:].if_bandwidth

  • Units: Hz
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.first_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.first_point.phi_σ

error of ece.channel[:].lineofsight.first_point.phi

  • Units: rad
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.first_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.first_point.r_σ

error of ece.channel[:].lineofsight.first_point.r

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.first_point.z

Height

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.first_point.z_σ

error of ece.channel[:].lineofsight.first_point.z

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.second_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.second_point.phi_σ

error of ece.channel[:].lineofsight.second_point.phi

  • Units: rad
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.second_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.second_point.r_σ

error of ece.channel[:].lineofsight.second_point.r

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.second_point.z

Height

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].line_of_sight.second_point.z_σ

error of ece.channel[:].lineofsight.second_point.z

  • Units: m
  • Data Type: FLT_0D

ece.channel[:].name

Name of the channel

  • Data Type: STR_0D

ece.channel[:].optical_depth.data

Data

  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].optical_depth.data_σ

error of ece.channel[:].optical_depth.data

  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].optical_depth.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

ece.channel[:].optical_depth.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.phi_σ

error of ece.channel[:].position.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.psi

Poloidal flux

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.psi_σ

error of ece.channel[:].position.psi

  • Units: W
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.r_σ

error of ece.channel[:].position.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.rho_tor_norm

Normalised toroidal flux coordinate

  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.rho_tor_norm_σ

error of ece.channel[:].position.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.theta

Poloidal angle (oriented clockwise when viewing the poloidal cross section on the right hand side of the tokamak axis of symmetry, with the origin placed on the plasma magnetic axis)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.theta_σ

error of ece.channel[:].position.theta

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].position.z_σ

error of ece.channel[:].position.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].t_e.data

Data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].t_e.data_σ

error of ece.channel[:].t_e.data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].t_e.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

ece.channel[:].t_e.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["ece.channel[:].time"]

ece.channel[:].t_e_voltage.data

Data

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].t_e_voltage.time"]

ece.channel[:].t_e_voltage.data_σ

error of ece.channel[:].tevoltage.data

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["ece.channel[:].t_e_voltage.time"]

ece.channel[:].t_e_voltage.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.channel[:].t_e_voltage.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

ece.channel[:].t_e_voltage.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["ece.channel[:].t_e_voltage.time"]

ece.channel[:].time

Timebase for the processed dynamic data of this channel (outside of the beam structure)

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.code.commit

Unique commit reference of software

  • Data Type: STR_0D

ece.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ece.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ece.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ece.code.library[:].name

Name of software

  • Data Type: STR_0D

ece.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ece.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

ece.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ece.code.name

Name of software generating IDS

  • Data Type: STR_0D

ece.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["ece.time"]

ece.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ece.code.repository

URL of software repository

  • Data Type: STR_0D

ece.code.version

Unique version (tag) of software

  • Data Type: STR_0D

ece.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

ece.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

ece.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

ece.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

ece.ids_properties.occurrence

N/A

  • Data Type: INT_0D

ece.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

ece.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ece.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

ece.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

ece.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ece.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

ece.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

ece.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

ece.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

ece.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

ece.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

ece.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

ece.latency_σ

error of ece.latency

  • Units: s
  • Data Type: FLT_0D

ece.line_of_sight.first_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

ece.line_of_sight.first_point.phi_σ

error of ece.lineofsight.first_point.phi

  • Units: rad
  • Data Type: FLT_0D

ece.line_of_sight.first_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

ece.line_of_sight.first_point.r_σ

error of ece.lineofsight.first_point.r

  • Units: m
  • Data Type: FLT_0D

ece.line_of_sight.first_point.z

Height

  • Units: m
  • Data Type: FLT_0D

ece.line_of_sight.first_point.z_σ

error of ece.lineofsight.first_point.z

  • Units: m
  • Data Type: FLT_0D

ece.line_of_sight.second_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

ece.line_of_sight.second_point.phi_σ

error of ece.lineofsight.second_point.phi

  • Units: rad
  • Data Type: FLT_0D

ece.line_of_sight.second_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

ece.line_of_sight.second_point.r_σ

error of ece.lineofsight.second_point.r

  • Units: m
  • Data Type: FLT_0D

ece.line_of_sight.second_point.z

Height

  • Units: m
  • Data Type: FLT_0D

ece.line_of_sight.second_point.z_σ

error of ece.lineofsight.second_point.z

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].centre.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

ece.polarizer[:].centre.phi_σ

error of ece.polarizer[:].centre.phi

  • Units: rad
  • Data Type: FLT_0D

ece.polarizer[:].centre.r

Major radius

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].centre.r_σ

error of ece.polarizer[:].centre.r

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].centre.z

Height

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].centre.z_σ

error of ece.polarizer[:].centre.z

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].polarization_angle

Alignment angle of the polarizer in the (x1,x2) plane. Electric fields parallel to the polarizer angle will be reflected. The angle is defined with respect to the x1 unit vector, positive in the counter-clockwise direction when looking towards the plasma

  • Units: rad
  • Data Type: FLT_0D

ece.polarizer[:].polarization_angle_σ

error of ece.polarizer[:].polarization_angle

  • Units: rad
  • Data Type: FLT_0D

ece.polarizer[:].radius

Radius of the circle, used only if geometry_type = 2

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].radius_σ

error of ece.polarizer[:].radius

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x1_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x1_unit_vector.x_σ

error of ece.polarizer[:].x1unitvector.x

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x1_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x1_unit_vector.y_σ

error of ece.polarizer[:].x1unitvector.y

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x1_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x1_unit_vector.z_σ

error of ece.polarizer[:].x1unitvector.z

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x2_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x2_unit_vector.x_σ

error of ece.polarizer[:].x2unitvector.x

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x2_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x2_unit_vector.y_σ

error of ece.polarizer[:].x2unitvector.y

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x2_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x2_unit_vector.z_σ

error of ece.polarizer[:].x2unitvector.z

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x3_unit_vector.x

Component along X axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x3_unit_vector.x_σ

error of ece.polarizer[:].x3unitvector.x

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x3_unit_vector.y

Component along Y axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x3_unit_vector.y_σ

error of ece.polarizer[:].x3unitvector.y

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x3_unit_vector.z

Component along Z axis

  • Units: m
  • Data Type: FLT_0D

ece.polarizer[:].x3_unit_vector.z_σ

error of ece.polarizer[:].x3unitvector.z

  • Units: m
  • Data Type: FLT_0D

ece.psi_normalization.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["ece.psi_normalization.time"]

ece.psi_normalization.psi_boundary_σ

error of ece.psinormalization.psiboundary

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["ece.psi_normalization.time"]

ece.psi_normalization.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["ece.psi_normalization.time"]

ece.psi_normalization.psi_magnetic_axis_σ

error of ece.psinormalization.psimagnetic_axis

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["ece.psi_normalization.time"]

ece.psi_normalization.time

Time for the R,Z,phi coordinates

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.t_e_central.data

Data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["ece.t_e_central.time"]

ece.t_e_central.data_σ

error of ece.tecentral.data

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["ece.t_e_central.time"]

ece.t_e_central.rho_tor_norm

Normalised toroidal flux coordinate of the measurement

  • Data Type: FLT_1D
  • Coordinates: ["ece.t_e_central.time"]

ece.t_e_central.rho_tor_norm_σ

error of ece.tecentral.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["ece.t_e_central.time"]

ece.t_e_central.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ece.t_e_central.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

ece.t_e_central.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["ece.t_e_central.time"]

ece.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.code.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_profiles.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_profiles.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_profiles.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_profiles.code.library[:].name

Name of software

  • Data Type: STR_0D

edge_profiles.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

edge_profiles.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_profiles.code.name

Name of software generating IDS

  • Data Type: STR_0D

edge_profiles.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.time"]

edge_profiles.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.code.repository

URL of software repository

  • Data Type: STR_0D

edge_profiles.code.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_profiles.ggd[:].a_field_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: T.m
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].a_field_parallel[:].values", "1...N"]

edge_profiles.ggd[:].a_field_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].afield_parallel[:].coefficients

  • Units: T.m
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].a_field_parallel[:].values", "1...N"]

edge_profiles.ggd[:].a_field_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].a_field_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].a_field_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: T.m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].a_field_parallel[:].values_σ

error of edgeprofiles.ggd[:].afield_parallel[:].values

  • Units: T.m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].diamagnetic_σ

error of edgeprofiles.ggd[:].efield[:].diamagnetic

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].efield[:].diamagnetic_coefficients

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].e_field[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].e_field[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].parallel_σ

error of edgeprofiles.ggd[:].efield[:].parallel

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].efield[:].parallel_coefficients

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].poloidal_σ

error of edgeprofiles.ggd[:].efield[:].poloidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].efield[:].poloidal_coefficients

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].r_σ

error of edgeprofiles.ggd[:].efield[:].r

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].r_coefficients_σ

error of edgeprofiles.ggd[:].efield[:].r_coefficients

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].radial_σ

error of edgeprofiles.ggd[:].efield[:].radial

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].efield[:].radial_coefficients

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].toroidal_σ

error of edgeprofiles.ggd[:].efield[:].toroidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].efield[:].toroidal_coefficients

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].z_σ

error of edgeprofiles.ggd[:].efield[:].z

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].e_field[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].e_field[:].z_coefficients_σ

error of edgeprofiles.ggd[:].efield[:].z_coefficients

  • Units: V.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.density[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.density[:].values", "1...N"]

edge_profiles.ggd[:].electrons.density[:].coefficients_σ

error of edge_profiles.ggd[:].electrons.density[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.density[:].values", "1...N"]

edge_profiles.ggd[:].electrons.density[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.density[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.density[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.density[:].values_σ

error of edge_profiles.ggd[:].electrons.density[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.density_fast[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.density_fast[:].values", "1...N"]

edge_profiles.ggd[:].electrons.density_fast[:].coefficients_σ

error of edgeprofiles.ggd[:].electrons.densityfast[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.density_fast[:].values", "1...N"]

edge_profiles.ggd[:].electrons.density_fast[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.density_fast[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.density_fast[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.density_fast[:].values_σ

error of edgeprofiles.ggd[:].electrons.densityfast[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.distribution_function[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.distribution_function[:].values", "1...N"]

edge_profiles.ggd[:].electrons.distribution_function[:].coefficients_σ

error of edgeprofiles.ggd[:].electrons.distributionfunction[:].coefficients

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.distribution_function[:].values", "1...N"]

edge_profiles.ggd[:].electrons.distribution_function[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.distribution_function[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.distribution_function[:].values

One scalar value is provided per element in the grid subset.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.distribution_function[:].values_σ

error of edgeprofiles.ggd[:].electrons.distributionfunction[:].values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.pressure[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.pressure[:].values", "1...N"]

edge_profiles.ggd[:].electrons.pressure[:].coefficients_σ

error of edge_profiles.ggd[:].electrons.pressure[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.pressure[:].values", "1...N"]

edge_profiles.ggd[:].electrons.pressure[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.pressure[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.pressure[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.pressure[:].values_σ

error of edge_profiles.ggd[:].electrons.pressure[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].electrons.pressurefast_parallel[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_parallel[:].values_σ

error of edgeprofiles.ggd[:].electrons.pressurefast_parallel[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].coefficients_σ

error of edgeprofiles.ggd[:].electrons.pressurefast_perpendicular[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.pressure_fast_perpendicular[:].values_σ

error of edgeprofiles.ggd[:].electrons.pressurefast_perpendicular[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.temperature[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.temperature[:].values", "1...N"]

edge_profiles.ggd[:].electrons.temperature[:].coefficients_σ

error of edge_profiles.ggd[:].electrons.temperature[:].coefficients

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].electrons.temperature[:].values", "1...N"]

edge_profiles.ggd[:].electrons.temperature[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.temperature[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.temperature[:].values

One scalar value is provided per element in the grid subset.

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.temperature[:].values_σ

error of edge_profiles.ggd[:].electrons.temperature[:].values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].diamagnetic_σ

error of edge_profiles.ggd[:].electrons.velocity[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].electrons.velocity[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.velocity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].electrons.velocity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].parallel_σ

error of edge_profiles.ggd[:].electrons.velocity[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].electrons.velocity[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].poloidal_σ

error of edge_profiles.ggd[:].electrons.velocity[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].electrons.velocity[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].r_σ

error of edge_profiles.ggd[:].electrons.velocity[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].electrons.velocity[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].radial_σ

error of edge_profiles.ggd[:].electrons.velocity[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].electrons.velocity[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].toroidal_σ

error of edge_profiles.ggd[:].electrons.velocity[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].electrons.velocity[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].z_σ

error of edge_profiles.ggd[:].electrons.velocity[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].electrons.velocity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].electrons.velocity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].electrons.velocity[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].density[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].density[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].density[:].coefficients_σ

error of edge_profiles.ggd[:].ion[:].density[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].density[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].density[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].density[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].density[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].density[:].values_σ

error of edge_profiles.ggd[:].ion[:].density[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].density_fast[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].density_fast[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].densityfast[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].density_fast[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].density_fast[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].density_fast[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].density_fast[:].values_σ

error of edgeprofiles.ggd[:].ion[:].densityfast[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].element[:].a_σ

error of edge_profiles.ggd[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].element[:].z_n_σ

error of edgeprofiles.ggd[:].ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].energydensity_kinetic[:].coefficients

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].values

One scalar value is provided per element in the grid subset.

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].energy_density_kinetic[:].values_σ

error of edgeprofiles.ggd[:].ion[:].energydensity_kinetic[:].values

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

edge_profiles.ggd[:].ion[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].pressure[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].pressure[:].coefficients_σ

error of edge_profiles.ggd[:].ion[:].pressure[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].pressure[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].pressure[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].pressure[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].pressure[:].values_σ

error of edge_profiles.ggd[:].ion[:].pressure[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].pressurefast_parallel[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_parallel[:].values_σ

error of edgeprofiles.ggd[:].ion[:].pressurefast_parallel[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].pressurefast_perpendicular[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].pressure_fast_perpendicular[:].values_σ

error of edgeprofiles.ggd[:].ion[:].pressurefast_perpendicular[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].density[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].density[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].density[:].coefficients_σ

error of edge_profiles.ggd[:].ion[:].state[:].density[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].density[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].density[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].density[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].density[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].density[:].values_σ

error of edge_profiles.ggd[:].ion[:].state[:].density[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].density_fast[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].density_fast[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].densityfast[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].density_fast[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].density_fast[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].density_fast[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].density_fast[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].densityfast[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].distributionfunction[:].coefficients

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].values

One scalar value is provided per element in the grid subset.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].distribution_function[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].distributionfunction[:].values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].energydensity_kinetic[:].coefficients

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].values

One scalar value is provided per element in the grid subset.

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].energy_density_kinetic[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].energydensity_kinetic[:].values

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Elementary Charge Unit
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].ionisationpotential[:].coefficients

  • Units: Elementary Charge Unit
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].values

One scalar value is provided per element in the grid subset.

  • Units: Elementary Charge Unit
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].ionisation_potential[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].ionisationpotential[:].values

  • Units: Elementary Charge Unit
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].label

String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

edge_profiles.ggd[:].ion[:].state[:].pressure[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure[:].coefficients_σ

error of edge_profiles.ggd[:].ion[:].state[:].pressure[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].pressure[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].pressure[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure[:].values_σ

error of edge_profiles.ggd[:].ion[:].state[:].pressure[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].pressurefast_parallel[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_parallel[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].pressurefast_parallel[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].pressurefast_perpendicular[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].pressure_fast_perpendicular[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].pressurefast_perpendicular[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].temperature[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].temperature[:].coefficients_σ

error of edge_profiles.ggd[:].ion[:].state[:].temperature[:].coefficients

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].temperature[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].temperature[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].temperature[:].values

One scalar value is provided per element in the grid subset.

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].temperature[:].values_σ

error of edge_profiles.ggd[:].ion[:].state[:].temperature[:].values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].diamagnetic_σ

error of edge_profiles.ggd[:].ion[:].state[:].velocity[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocity[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].velocity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].velocity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].parallel_σ

error of edge_profiles.ggd[:].ion[:].state[:].velocity[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocity[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].poloidal_σ

error of edge_profiles.ggd[:].ion[:].state[:].velocity[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocity[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].r_σ

error of edge_profiles.ggd[:].ion[:].state[:].velocity[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocity[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].radial_σ

error of edge_profiles.ggd[:].ion[:].state[:].velocity[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocity[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].toroidal_σ

error of edge_profiles.ggd[:].ion[:].state[:].velocity[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocity[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].z_σ

error of edge_profiles.ggd[:].ion[:].state[:].velocity[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocity[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].diamagnetic_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].diamagnetic_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].parallel_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].parallel_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].poloidal_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].poloidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].r_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].r_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].r_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].radial_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].radial_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].toroidal_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].toroidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].z_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_diamagnetic[:].z_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocitydiamagnetic[:].z_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].diamagnetic_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].diamagnetic_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].parallel_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].parallel_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].poloidal_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].poloidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].r_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].r_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].r_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].radial_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].radial_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].toroidal_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].toroidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].z_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].velocity_exb[:].z_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].velocityexb[:].z_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].state[:].vibrational_level_σ

error of edgeprofiles.ggd[:].ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_profiles.ggd[:].ion[:].state[:].z_average[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Elementary Charge Unit
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].z_average[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].z_average[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].zaverage[:].coefficients

  • Units: Elementary Charge Unit
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].z_average[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].z_average[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].z_average[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].z_average[:].values

One scalar value is provided per element in the grid subset.

  • Units: Elementary Charge Unit
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].z_average[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].zaverage[:].values

  • Units: Elementary Charge Unit
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].z_max

Maximum Z of the state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].state[:].z_max_σ

error of edgeprofiles.ggd[:].ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].state[:].z_min

Minimum Z of the state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].state[:].z_min_σ

error of edgeprofiles.ggd[:].ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Elementary Charge Unit
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].coefficients_σ

error of edgeprofiles.ggd[:].ion[:].state[:].zsquare_average[:].coefficients

  • Units: Elementary Charge Unit
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].values

One scalar value is provided per element in the grid subset.

  • Units: Elementary Charge Unit
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].state[:].z_square_average[:].values_σ

error of edgeprofiles.ggd[:].ion[:].state[:].zsquare_average[:].values

  • Units: Elementary Charge Unit
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].temperature[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].temperature[:].coefficients_σ

error of edge_profiles.ggd[:].ion[:].temperature[:].coefficients

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].ion[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].ion[:].temperature[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].temperature[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].temperature[:].values

One scalar value is provided per element in the grid subset.

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].temperature[:].values_σ

error of edge_profiles.ggd[:].ion[:].temperature[:].values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].diamagnetic_σ

error of edge_profiles.ggd[:].ion[:].velocity[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].velocity[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].velocity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].ion[:].velocity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].parallel_σ

error of edge_profiles.ggd[:].ion[:].velocity[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].velocity[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].poloidal_σ

error of edge_profiles.ggd[:].ion[:].velocity[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].velocity[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].r_σ

error of edge_profiles.ggd[:].ion[:].velocity[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].velocity[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].radial_σ

error of edge_profiles.ggd[:].ion[:].velocity[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].velocity[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].toroidal_σ

error of edge_profiles.ggd[:].ion[:].velocity[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].velocity[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].z_σ

error of edge_profiles.ggd[:].ion[:].velocity[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].velocity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].ion[:].velocity[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].ion[:].z_ion_σ

error of edgeprofiles.ggd[:].ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].j_anomalous[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].diamagnetic_σ

error of edgeprofiles.ggd[:].janomalous[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].janomalous[:].diamagnetic_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_anomalous[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_anomalous[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].parallel_σ

error of edgeprofiles.ggd[:].janomalous[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].janomalous[:].parallel_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].poloidal_σ

error of edgeprofiles.ggd[:].janomalous[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].janomalous[:].poloidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].r_σ

error of edgeprofiles.ggd[:].janomalous[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].r_coefficients_σ

error of edgeprofiles.ggd[:].janomalous[:].r_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].radial_σ

error of edgeprofiles.ggd[:].janomalous[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].janomalous[:].radial_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].toroidal_σ

error of edgeprofiles.ggd[:].janomalous[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].janomalous[:].toroidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].z_σ

error of edgeprofiles.ggd[:].janomalous[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_anomalous[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_anomalous[:].z_coefficients_σ

error of edgeprofiles.ggd[:].janomalous[:].z_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].diamagnetic_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_diamagnetic[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_diamagnetic[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].parallel_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].parallel_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].poloidal_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].poloidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].r_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].r_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].radial_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].radial_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].toroidal_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].toroidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].z_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_diamagnetic[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jdiamagnetic[:].z_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jheat_viscosity[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jheatviscosity[:].diamagneticcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_heat_viscosity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_heat_viscosity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].parallel_σ

error of edgeprofiles.ggd[:].jheat_viscosity[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jheatviscosity[:].parallelcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].poloidal_σ

error of edgeprofiles.ggd[:].jheat_viscosity[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jheatviscosity[:].poloidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].r_σ

error of edgeprofiles.ggd[:].jheat_viscosity[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jheatviscosity[:].rcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].radial_σ

error of edgeprofiles.ggd[:].jheat_viscosity[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jheatviscosity[:].radialcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].toroidal_σ

error of edgeprofiles.ggd[:].jheat_viscosity[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jheatviscosity[:].toroidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].z_σ

error of edgeprofiles.ggd[:].jheat_viscosity[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_heat_viscosity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jheatviscosity[:].zcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jinertial[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jinertial[:].diamagnetic_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_inertial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_inertial[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].parallel_σ

error of edgeprofiles.ggd[:].jinertial[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jinertial[:].parallel_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].poloidal_σ

error of edgeprofiles.ggd[:].jinertial[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jinertial[:].poloidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].r_σ

error of edgeprofiles.ggd[:].jinertial[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jinertial[:].r_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].radial_σ

error of edgeprofiles.ggd[:].jinertial[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jinertial[:].radial_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].toroidal_σ

error of edgeprofiles.ggd[:].jinertial[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jinertial[:].toroidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].z_σ

error of edgeprofiles.ggd[:].jinertial[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_inertial[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_inertial[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jinertial[:].z_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].diamagnetic_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_ion_neutral_friction[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_ion_neutral_friction[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].parallel_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].parallel_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].poloidal_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].poloidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].r_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].r_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].radial_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].radial_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].toroidal_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].toroidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].z_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_ion_neutral_friction[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jionneutralfriction[:].z_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].j_parallel[:].values", "1...N"]

edge_profiles.ggd[:].j_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].jparallel[:].coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].j_parallel[:].values", "1...N"]

edge_profiles.ggd[:].j_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel[:].values_σ

error of edgeprofiles.ggd[:].jparallel[:].values

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jparallel_viscosity[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jparallelviscosity[:].diamagneticcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_parallel_viscosity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_parallel_viscosity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].parallel_σ

error of edgeprofiles.ggd[:].jparallel_viscosity[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jparallelviscosity[:].parallelcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].poloidal_σ

error of edgeprofiles.ggd[:].jparallel_viscosity[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jparallelviscosity[:].poloidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].r_σ

error of edgeprofiles.ggd[:].jparallel_viscosity[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jparallelviscosity[:].rcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].radial_σ

error of edgeprofiles.ggd[:].jparallel_viscosity[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jparallelviscosity[:].radialcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].toroidal_σ

error of edgeprofiles.ggd[:].jparallel_viscosity[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jparallelviscosity[:].toroidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].z_σ

error of edgeprofiles.ggd[:].jparallel_viscosity[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_parallel_viscosity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jparallelviscosity[:].zcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jperpendicular_viscosity[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jperpendicularviscosity[:].diamagneticcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_perpendicular_viscosity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_perpendicular_viscosity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].parallel_σ

error of edgeprofiles.ggd[:].jperpendicular_viscosity[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jperpendicularviscosity[:].parallelcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].poloidal_σ

error of edgeprofiles.ggd[:].jperpendicular_viscosity[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jperpendicularviscosity[:].poloidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].r_σ

error of edgeprofiles.ggd[:].jperpendicular_viscosity[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jperpendicularviscosity[:].rcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].radial_σ

error of edgeprofiles.ggd[:].jperpendicular_viscosity[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jperpendicularviscosity[:].radialcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].toroidal_σ

error of edgeprofiles.ggd[:].jperpendicular_viscosity[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jperpendicularviscosity[:].toroidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].z_σ

error of edgeprofiles.ggd[:].jperpendicular_viscosity[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_perpendicular_viscosity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jperpendicularviscosity[:].zcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jpfirsch_schlueter[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jpfirschschlueter[:].diamagneticcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_pfirsch_schlueter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_pfirsch_schlueter[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].parallel_σ

error of edgeprofiles.ggd[:].jpfirsch_schlueter[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jpfirschschlueter[:].parallelcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].poloidal_σ

error of edgeprofiles.ggd[:].jpfirsch_schlueter[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jpfirschschlueter[:].poloidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].r_σ

error of edgeprofiles.ggd[:].jpfirsch_schlueter[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jpfirschschlueter[:].rcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].radial_σ

error of edgeprofiles.ggd[:].jpfirsch_schlueter[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jpfirschschlueter[:].radialcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].toroidal_σ

error of edgeprofiles.ggd[:].jpfirsch_schlueter[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jpfirschschlueter[:].toroidalcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].z_σ

error of edgeprofiles.ggd[:].jpfirsch_schlueter[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_pfirsch_schlueter[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jpfirschschlueter[:].zcoefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].diamagnetic_σ

error of edgeprofiles.ggd[:].jtotal[:].diamagnetic

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].jtotal[:].diamagnetic_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].j_total[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].j_total[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].parallel_σ

error of edgeprofiles.ggd[:].jtotal[:].parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].jtotal[:].parallel_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].poloidal_σ

error of edgeprofiles.ggd[:].jtotal[:].poloidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].jtotal[:].poloidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].r_σ

error of edgeprofiles.ggd[:].jtotal[:].r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].r_coefficients_σ

error of edgeprofiles.ggd[:].jtotal[:].r_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].radial_σ

error of edgeprofiles.ggd[:].jtotal[:].radial

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].jtotal[:].radial_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].toroidal_σ

error of edgeprofiles.ggd[:].jtotal[:].toroidal

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].jtotal[:].toroidal_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].z_σ

error of edgeprofiles.ggd[:].jtotal[:].z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].j_total[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].j_total[:].z_coefficients_σ

error of edgeprofiles.ggd[:].jtotal[:].z_coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].n_i_total_over_n_e[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].n_i_total_over_n_e[:].values", "1...N"]

edge_profiles.ggd[:].n_i_total_over_n_e[:].coefficients_σ

error of edgeprofiles.ggd[:].nitotaloverne[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].n_i_total_over_n_e[:].values", "1...N"]

edge_profiles.ggd[:].n_i_total_over_n_e[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].n_i_total_over_n_e[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].n_i_total_over_n_e[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].n_i_total_over_n_e[:].values_σ

error of edgeprofiles.ggd[:].nitotaloverne[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].density[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].density[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].density[:].coefficients_σ

error of edge_profiles.ggd[:].neutral[:].density[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].density[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].density[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].density[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].density[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].density[:].values_σ

error of edge_profiles.ggd[:].neutral[:].density[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].density_fast[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].density_fast[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].densityfast[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].density_fast[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].density_fast[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].density_fast[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].density_fast[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].densityfast[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].neutral[:].element[:].a_σ

error of edge_profiles.ggd[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].neutral[:].element[:].z_n_σ

error of edgeprofiles.ggd[:].neutral[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].energydensity_kinetic[:].coefficients

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].values

One scalar value is provided per element in the grid subset.

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].energy_density_kinetic[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].energydensity_kinetic[:].values

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].label

String identifying the species (e.g. H, D, T, He, C, D2, DT, CD4, ...)

  • Data Type: STR_0D

edge_profiles.ggd[:].neutral[:].multiple_states_flag

Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].pressure[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].pressure[:].coefficients_σ

error of edge_profiles.ggd[:].neutral[:].pressure[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].pressure[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].pressure[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].pressure[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].pressure[:].values_σ

error of edge_profiles.ggd[:].neutral[:].pressure[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].pressurefast_parallel[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_parallel[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].pressurefast_parallel[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].pressurefast_perpendicular[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].pressure_fast_perpendicular[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].pressurefast_perpendicular[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].density[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density[:].coefficients_σ

error of edge_profiles.ggd[:].neutral[:].state[:].density[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].density[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].density[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].density[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density[:].values_σ

error of edge_profiles.ggd[:].neutral[:].state[:].density[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].densityfast[:].coefficients

  • Units: m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].density_fast[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].densityfast[:].values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].distributionfunction[:].coefficients

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].values

One scalar value is provided per element in the grid subset.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].distribution_function[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].distributionfunction[:].values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].energydensity_kinetic[:].coefficients

  • Units: J.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].values

One scalar value is provided per element in the grid subset.

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].energy_density_kinetic[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].energydensity_kinetic[:].values

  • Units: J.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

edge_profiles.ggd[:].neutral[:].state[:].neutral_type.description

Verbose description

  • Data Type: STR_0D

edge_profiles.ggd[:].neutral[:].state[:].neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].neutral_type.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.ggd[:].neutral[:].state[:].pressure[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure[:].coefficients_σ

error of edge_profiles.ggd[:].neutral[:].state[:].pressure[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].pressure[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].pressure[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].pressure[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure[:].values_σ

error of edge_profiles.ggd[:].neutral[:].state[:].pressure[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].pressurefast_parallel[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_parallel[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].pressurefast_parallel[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].pressurefast_perpendicular[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].pressure_fast_perpendicular[:].values_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].pressurefast_perpendicular[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].temperature[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].temperature[:].coefficients_σ

error of edge_profiles.ggd[:].neutral[:].state[:].temperature[:].coefficients

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].state[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].temperature[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].temperature[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].temperature[:].values

One scalar value is provided per element in the grid subset.

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].temperature[:].values_σ

error of edge_profiles.ggd[:].neutral[:].state[:].temperature[:].values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].diamagnetic_σ

error of edge_profiles.ggd[:].neutral[:].state[:].velocity[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocity[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].parallel_σ

error of edge_profiles.ggd[:].neutral[:].state[:].velocity[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocity[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].poloidal_σ

error of edge_profiles.ggd[:].neutral[:].state[:].velocity[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocity[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].r_σ

error of edge_profiles.ggd[:].neutral[:].state[:].velocity[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocity[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].radial_σ

error of edge_profiles.ggd[:].neutral[:].state[:].velocity[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocity[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].toroidal_σ

error of edge_profiles.ggd[:].neutral[:].state[:].velocity[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocity[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].z_σ

error of edge_profiles.ggd[:].neutral[:].state[:].velocity[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocity[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].diamagnetic_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].diamagnetic_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].parallel_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].parallel_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].poloidal_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].poloidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].r_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].r_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].r_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].radial_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].radial_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].toroidal_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].toroidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].z_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_diamagnetic[:].z_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocitydiamagnetic[:].z_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].diamagnetic_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].diamagnetic_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].parallel_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].parallel_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].poloidal_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].poloidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].r_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].r_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].r_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].radial_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].radial_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].toroidal_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].toroidal_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].z_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].velocity_exb[:].z_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].velocityexb[:].z_coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].neutral[:].state[:].vibrational_level_σ

error of edgeprofiles.ggd[:].neutral[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_profiles.ggd[:].neutral[:].temperature[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].temperature[:].coefficients_σ

error of edge_profiles.ggd[:].neutral[:].temperature[:].coefficients

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].neutral[:].temperature[:].values", "1...N"]

edge_profiles.ggd[:].neutral[:].temperature[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].temperature[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].temperature[:].values

One scalar value is provided per element in the grid subset.

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].temperature[:].values_σ

error of edge_profiles.ggd[:].neutral[:].temperature[:].values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].diamagnetic_σ

error of edge_profiles.ggd[:].neutral[:].velocity[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].diamagnetic_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].velocity[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].velocity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].neutral[:].velocity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].parallel_σ

error of edge_profiles.ggd[:].neutral[:].velocity[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].parallel_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].velocity[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].poloidal_σ

error of edge_profiles.ggd[:].neutral[:].velocity[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].poloidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].velocity[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].r_σ

error of edge_profiles.ggd[:].neutral[:].velocity[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].r_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].velocity[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].radial_σ

error of edge_profiles.ggd[:].neutral[:].velocity[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].radial_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].velocity[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].toroidal_σ

error of edge_profiles.ggd[:].neutral[:].velocity[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].toroidal_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].velocity[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].z_σ

error of edge_profiles.ggd[:].neutral[:].velocity[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].neutral[:].velocity[:].z_coefficients_σ

error of edgeprofiles.ggd[:].neutral[:].velocity[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.ggd[:].phi_potential[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: V
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].phi_potential[:].values", "1...N"]

edge_profiles.ggd[:].phi_potential[:].coefficients_σ

error of edgeprofiles.ggd[:].phipotential[:].coefficients

  • Units: V
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].phi_potential[:].values", "1...N"]

edge_profiles.ggd[:].phi_potential[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].phi_potential[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].phi_potential[:].values

One scalar value is provided per element in the grid subset.

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].phi_potential[:].values_σ

error of edgeprofiles.ggd[:].phipotential[:].values

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].pressure_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].pressure_parallel[:].values", "1...N"]

edge_profiles.ggd[:].pressure_parallel[:].coefficients_σ

error of edgeprofiles.ggd[:].pressureparallel[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].pressure_parallel[:].values", "1...N"]

edge_profiles.ggd[:].pressure_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].pressure_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].pressure_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].pressure_parallel[:].values_σ

error of edgeprofiles.ggd[:].pressureparallel[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].pressure_perpendicular[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].pressure_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].pressure_perpendicular[:].coefficients_σ

error of edgeprofiles.ggd[:].pressureperpendicular[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].pressure_perpendicular[:].values", "1...N"]

edge_profiles.ggd[:].pressure_perpendicular[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].pressure_perpendicular[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].pressure_perpendicular[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].pressure_perpendicular[:].values_σ

error of edgeprofiles.ggd[:].pressureperpendicular[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].pressure_thermal[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].pressure_thermal[:].values", "1...N"]

edge_profiles.ggd[:].pressure_thermal[:].coefficients_σ

error of edgeprofiles.ggd[:].pressurethermal[:].coefficients

  • Units: Pa
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].pressure_thermal[:].values", "1...N"]

edge_profiles.ggd[:].pressure_thermal[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].pressure_thermal[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].pressure_thermal[:].values

One scalar value is provided per element in the grid subset.

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].pressure_thermal[:].values_σ

error of edgeprofiles.ggd[:].pressurethermal[:].values

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].t_i_average[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].t_i_average[:].values", "1...N"]

edge_profiles.ggd[:].t_i_average[:].coefficients_σ

error of edgeprofiles.ggd[:].ti_average[:].coefficients

  • Units: eV
  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].t_i_average[:].values", "1...N"]

edge_profiles.ggd[:].t_i_average[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].t_i_average[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].t_i_average[:].values

One scalar value is provided per element in the grid subset.

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].t_i_average[:].values_σ

error of edgeprofiles.ggd[:].ti_average[:].values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_profiles.ggd[:].zeff[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].zeff[:].values", "1...N"]

edge_profiles.ggd[:].zeff[:].coefficients_σ

error of edge_profiles.ggd[:].zeff[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_profiles.ggd[:].zeff[:].values", "1...N"]

edge_profiles.ggd[:].zeff[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd[:].zeff[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd[:].zeff[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd[:].zeff[:].values_σ

error of edge_profiles.ggd[:].zeff[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.ggd_fast[:].electrons.density[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].electrons.density[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].electrons.density[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: m^-3
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].electrons.density[:].value_σ

error of edgeprofiles.ggdfast[:].electrons.density[:].value

  • Units: m^-3
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].electrons.temperature[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].electrons.temperature[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].electrons.temperature[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: eV
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].electrons.temperature[:].value_σ

error of edgeprofiles.ggdfast[:].electrons.temperature[:].value

  • Units: eV
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].energy_thermal[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].energy_thermal[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].energy_thermal[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: J
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].energy_thermal[:].value_σ

error of edgeprofiles.ggdfast[:].energy_thermal[:].value

  • Units: J
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].content[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].content[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].content[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].content[:].value_σ

error of edgeprofiles.ggdfast[:].ion[:].content[:].value

  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].density[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].density[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].density[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: m^-3
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].density[:].value_σ

error of edgeprofiles.ggdfast[:].ion[:].density[:].value

  • Units: m^-3
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].element[:].a_σ

error of edgeprofiles.ggdfast[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].element[:].z_n_σ

error of edgeprofiles.ggdfast[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].label

String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)

  • Data Type: STR_0D

edge_profiles.ggd_fast[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].temperature[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].temperature[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.ggd_fast[:].ion[:].temperature[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: eV
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].temperature[:].value_σ

error of edgeprofiles.ggdfast[:].ion[:].temperature[:].value

  • Units: eV
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed).

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].ion[:].z_ion_σ

error of edgeprofiles.ggdfast[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.ggd_fast[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_profiles.grid_ggd[:].grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element"]

edge_profiles.grid_ggd[:].grid_subset[:].base[:].jacobian_σ

error of edgeprofiles.gridggd[:].grid_subset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element"]

edge_profiles.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant_σ

error of edgeprofiles.gridggd[:].gridsubset[:].base[:].tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].grid_subset[:].base[:].tensor_covariant_σ

error of edgeprofiles.gridggd[:].gridsubset[:].base[:].tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].grid_subset[:].dimension

Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].grid_subset[:].element[:].object[:].dimension

Dimension of the object - using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element"]

edge_profiles.grid_ggd[:].grid_subset[:].metric.jacobian_σ

error of edgeprofiles.gridggd[:].grid_subset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element"]

edge_profiles.grid_ggd[:].grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].grid_subset[:].metric.tensor_contravariant_σ

error of edgeprofiles.gridggd[:].gridsubset[:].metric.tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].grid_subset[:].metric.tensor_covariant_σ

error of edgeprofiles.gridggd[:].gridsubset[:].metric.tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_profiles.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_profiles.grid_ggd[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: IDS::wall/0/descriptionggd(1)/gridggd, means that the grid is located in the wall IDS, occurrence 0, with relative path descriptionggd(1)/gridggd, using Fortran index convention (here : first index of the array)

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_profiles.grid_ggd[:].space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].space[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object can possibly have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object, its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_σ

error of edgeprofiles.gridggd[:].space[:].objectsperdimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of edgeprofiles.gridggd[:].space[:].objectsperdimension[:].object[:].geometry_2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure_σ

error of edgeprofiles.gridggd[:].space[:].objectsperdimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

edge_profiles.grid_ggd[:].space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_profiles.grid_ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_profiles.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

edge_profiles.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

edge_profiles.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

edge_profiles.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

edge_profiles.ids_properties.occurrence

N/A

  • Data Type: INT_0D

edge_profiles.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

edge_profiles.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

edge_profiles.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_profiles.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

edge_profiles.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

edge_profiles.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

edge_profiles.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

edge_profiles.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

edge_profiles.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

edge_profiles.midplane.description

Verbose description

  • Data Type: STR_0D

edge_profiles.midplane.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.midplane.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].conductivity_parallel

Parallel conductivity

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].conductivity_parallel_σ

error of edgeprofiles.profiles1d[:].conductivity_parallel

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].current_parallel_inside

Parallel current driven inside the flux surface. Cumulative surface integral of j_total

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].current_parallel_inside_σ

error of edgeprofiles.profiles1d[:].currentparallelinside

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.diamagnetic

Diamagnetic component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.diamagnetic_σ

error of edgeprofiles.profiles1d[:].e_field.diamagnetic

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.parallel

Parallel component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.parallel_σ

error of edgeprofiles.profiles1d[:].e_field.parallel

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.poloidal

Poloidal component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.poloidal_σ

error of edgeprofiles.profiles1d[:].e_field.poloidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.radial

Radial component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.radial_σ

error of edgeprofiles.profiles1d[:].e_field.radial

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.toroidal

Toroidal component

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].e_field.toroidal_σ

error of edgeprofiles.profiles1d[:].e_field.toroidal

  • Units: V.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.collisionality_norm

Collisionality normalised to the bounce frequency

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.collisionality_norm_σ

error of edgeprofiles.profiles1d[:].electrons.collisionality_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.density_σ

error of edgeprofiles.profiles1d[:].electrons.density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.density_fast_σ

error of edgeprofiles.profiles1d[:].electrons.density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.chi_squared_σ

error of edgeprofiles.profiles1d[:].electrons.densityfit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].electrons.density_fit.measured_σ

error of edgeprofiles.profiles1d[:].electrons.density_fit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].electrons.density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].electrons.density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.reconstructed_σ

error of edgeprofiles.profiles1d[:].electrons.density_fit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.rho_pol_norm

Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].electrons.densityfit.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].electrons.densityfit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.time_measurement_σ

error of edgeprofiles.profiles1d[:].electrons.densityfit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].electrons.density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].electrons.density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].electrons.density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.time_measurement_width_σ

error of edgeprofiles.profiles1d[:].electrons.densityfit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_fit.weight_σ

error of edgeprofiles.profiles1d[:].electrons.density_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.density_fit.measured"]

edge_profiles.profiles_1d[:].electrons.density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.density_thermal_σ

error of edgeprofiles.profiles1d[:].electrons.density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.density_validity

Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].electrons.pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.pressure_σ

error of edgeprofiles.profiles1d[:].electrons.pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.pressure_fast_parallel_σ

error of edgeprofiles.profiles1d[:].electrons.pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.pressure_fast_perpendicular_σ

error of edgeprofiles.profiles1d[:].electrons.pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.pressure_thermal_σ

error of edgeprofiles.profiles1d[:].electrons.pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.temperature_σ

error of edgeprofiles.profiles1d[:].electrons.temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.chi_squared_σ

error of edgeprofiles.profiles1d[:].electrons.temperaturefit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.measured_σ

error of edgeprofiles.profiles1d[:].electrons.temperature_fit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].electrons.temperature_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.reconstructed_σ

error of edgeprofiles.profiles1d[:].electrons.temperature_fit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.rho_pol_norm

Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].electrons.temperaturefit.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].electrons.temperaturefit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_σ

error of edgeprofiles.profiles1d[:].electrons.temperaturefit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.time_measurement_width_σ

error of edgeprofiles.profiles1d[:].electrons.temperaturefit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_fit.weight_σ

error of edgeprofiles.profiles1d[:].electrons.temperature_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].electrons.temperature_fit.measured"]

edge_profiles.profiles_1d[:].electrons.temperature_validity

Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].grid.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.area_σ

error of edgeprofiles.profiles1d[:].grid.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.psi_σ

error of edgeprofiles.profiles1d[:].grid.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.psi_boundary

Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].grid.psi_boundary_σ

error of edgeprofiles.profiles1d[:].grid.psi_boundary

  • Units: Wb
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].grid.psi_magnetic_axis

Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn't go from the magnetic axis to the plasma boundary)

  • Units: Wb
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].grid.psi_magnetic_axis_σ

error of edgeprofiles.profiles1d[:].grid.psimagneticaxis

  • Units: Wb
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].grid.rho_pol_norm

Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magneticaxis) / (psi(LCFS)-psi(magneticaxis)))

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].grid.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].grid.rhopolnorm

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].grid.rho_tor

Toroidal flux coordinate. rhotor = sqrt(bfluxtor/(pib0)) ~ sqrt(pir^2b0/(pib0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuumtoroidal_field/b0

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.rho_tor_σ

error of edgeprofiles.profiles1d[:].grid.rho_tor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].grid.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.volume

Volume enclosed inside the magnetic surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].grid.volume_σ

error of edgeprofiles.profiles1d[:].grid.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].density

Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].density_σ

error of edgeprofiles.profiles1d[:].ion[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].density_fast

Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].density_fast_σ

error of edgeprofiles.profiles1d[:].ion[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.chi_squared_σ

error of edgeprofiles.profiles1d[:].ion[:].densityfit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].ion[:].density_fit.measured_σ

error of edgeprofiles.profiles1d[:].ion[:].density_fit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].ion[:].density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.reconstructed_σ

error of edgeprofiles.profiles1d[:].ion[:].density_fit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.rho_pol_norm

Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].ion[:].densityfit.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].ion[:].densityfit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_σ

error of edgeprofiles.profiles1d[:].ion[:].densityfit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.time_measurement_width_σ

error of edgeprofiles.profiles1d[:].ion[:].densityfit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_fit.weight_σ

error of edgeprofiles.profiles1d[:].ion[:].density_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].density_thermal

Density (thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].density_thermal_σ

error of edgeprofiles.profiles1d[:].ion[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].density_validity

Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].element[:].a_σ

error of edgeprofiles.profiles1d[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].element[:].z_n_σ

error of edgeprofiles.profiles1d[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].pressure

Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].pressure_σ

error of edgeprofiles.profiles1d[:].ion[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].pressure_fast_parallel_σ

error of edgeprofiles.profiles1d[:].ion[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].pressure_fast_perpendicular_σ

error of edgeprofiles.profiles1d[:].ion[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].pressure_thermal_σ

error of edgeprofiles.profiles1d[:].ion[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken) (average over charge states when multiple charge states are considered)

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].rotation_frequency_tor_σ

error of edgeprofiles.profiles1d[:].ion[:].rotationfrequencytor

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fast_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.chi_squared_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].densityfit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured

Measured values

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].density_fit.measured

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.reconstructed

Value reconstructed from the fit

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.reconstructed_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].density_fit.reconstructed

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.rho_pol_norm

Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].densityfit.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].densityfit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].densityfit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.time_measurement_width_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].densityfit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.weight_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].density_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].state[:].density_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].density_thermal_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].state[:].ionisation_potential

Cumulative and average ionisation potential to reach a given bundle. Defined as sum (xz* (sum of Epot from z'=0 to z-1)), where Epot is the ionisation potential of ion Xz+, and xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: eV
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].ionisation_potential_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].ionisation_potential

  • Units: eV
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].label

String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].state[:].pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].pressure_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_parallel_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].pressure_fast_perpendicular_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].pressure_thermal_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].rotation_frequency_tor

Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken)

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].rotation_frequency_tor_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].rotationfrequencytor

  • Units: rad.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].temperature_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].vibrational_level_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_average

Average Z of the charge state bundle, volume averaged over the plasma radius (equal to zmin if no bundle), = sum (Z*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_average_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].z_average

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_average_1d

Average charge profile of the charge state bundle (equal to zmin if no bundle), = sum (Z*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].z_average_1d_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].zaverage1d

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].z_average_square_1d

Average square charge profile of the charge state bundle (equal to zmin squared if no bundle), = sum (Z^2*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].z_average_square_1d_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].zaveragesquare_1d

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].state[:].z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_max_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].z_max

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_min

Minimum Z of the charge state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_min_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].z_min

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_square_average

Average Z square of the charge state bundle, volume averaged over the plasma radius (equal to zmin squared if no bundle), = sum (Z^2*xz) where xz is the relative concentration of a given charge state in the bundle, i.e. sum(xz) = 1 over the bundle.

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].state[:].z_square_average_σ

error of edgeprofiles.profiles1d[:].ion[:].state[:].zsquareaverage

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].temperature

Temperature (average over charge states when multiple charge states are considered)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].temperature_σ

error of edgeprofiles.profiles1d[:].ion[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.chi_squared_σ

error of edgeprofiles.profiles1d[:].ion[:].temperaturefit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured_σ

error of edgeprofiles.profiles1d[:].ion[:].temperature_fit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].temperature_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.reconstructed_σ

error of edgeprofiles.profiles1d[:].ion[:].temperature_fit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.rho_pol_norm

Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].ion[:].temperaturefit.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].ion[:].temperaturefit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_σ

error of edgeprofiles.profiles1d[:].ion[:].temperaturefit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.time_measurement_width_σ

error of edgeprofiles.profiles1d[:].ion[:].temperaturefit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_fit.weight_σ

error of edgeprofiles.profiles1d[:].ion[:].temperature_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].ion[:].temperature_fit.measured"]

edge_profiles.profiles_1d[:].ion[:].temperature_validity

Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].ion[:].velocity.diamagnetic

Diamagnetic component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.diamagnetic_σ

error of edgeprofiles.profiles1d[:].ion[:].velocity.diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.parallel

Parallel component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.parallel_σ

error of edgeprofiles.profiles1d[:].ion[:].velocity.parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.poloidal

Poloidal component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.poloidal_σ

error of edgeprofiles.profiles1d[:].ion[:].velocity.poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.radial

Radial component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.radial_σ

error of edgeprofiles.profiles1d[:].ion[:].velocity.radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.toroidal

Toroidal component

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].velocity.toroidal_σ

error of edgeprofiles.profiles1d[:].ion[:].velocity.toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed), volume averaged over plasma radius

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].z_ion_σ

error of edgeprofiles.profiles1d[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].ion[:].z_ion_1d

Average charge of the ion species (sum of states charge weighted by state density and divided by ion density)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].z_ion_1d_σ

error of edgeprofiles.profiles1d[:].ion[:].zion1d

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].z_ion_square_1d

Average square charge of the ion species (sum of states square charge weighted by state density and divided by ion density)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].ion[:].z_ion_square_1d_σ

error of edgeprofiles.profiles1d[:].ion[:].zionsquare_1d

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_bootstrap

Bootstrap current density = average(JBootstrap.B) / B0, where B0 = edgeprofiles/VacuumToroidalField/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_bootstrap_σ

error of edgeprofiles.profiles1d[:].j_bootstrap

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_non_inductive

Non-inductive (includes bootstrap) parallel current density = average(jni.B) / B0, where B0 = edgeprofiles/VacuumToroidal_Field/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_non_inductive_σ

error of edgeprofiles.profiles1d[:].jnoninductive

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_ohmic

Ohmic parallel current density = average(JOhmic.B) / B0, where B0 = edgeprofiles/VacuumToroidalField/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_ohmic_σ

error of edgeprofiles.profiles1d[:].j_ohmic

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_tor

Total toroidal current density = average(J_Tor/R) / average(1/R)

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_tor_σ

error of edgeprofiles.profiles1d[:].j_tor

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_total

Total parallel current density = average(jtot.B) / B0, where B0 = edgeprofiles/VacuumToroidal_Field/ B0

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].j_total_σ

error of edgeprofiles.profiles1d[:].j_total

  • Units: A/m^2
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].magnetic_shear

Magnetic shear, defined as rhotor/q . dq/drhotor

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].magnetic_shear_σ

error of edgeprofiles.profiles1d[:].magnetic_shear

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].momentum_tor

Total plasma toroidal momentum, summed over ion species and electrons weighted by their density and major radius, i.e. sumoverspecies(nRm*Vphi)

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].momentum_tor_σ

error of edgeprofiles.profiles1d[:].momentum_tor

  • Units: kg.m^-1.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].n_i_thermal_total

Total ion thermal density (sum over species and charge states)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].n_i_thermal_total_σ

error of edgeprofiles.profiles1d[:].nithermal_total

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].n_i_total_over_n_e

Ratio of total ion density (sum over species and charge states) over electron density. (thermal+non-thermal)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].n_i_total_over_n_e_σ

error of edgeprofiles.profiles1d[:].nitotalovern_e

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].density

Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].density_σ

error of edgeprofiles.profiles1d[:].neutral[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].density_fast

Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].density_fast_σ

error of edgeprofiles.profiles1d[:].neutral[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].density_thermal

Density (thermal) (sum over charge states when multiple charge states are considered)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].density_thermal_σ

error of edgeprofiles.profiles1d[:].neutral[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].neutral[:].element[:].a_σ

error of edgeprofiles.profiles1d[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].neutral[:].element[:].z_n_σ

error of edgeprofiles.profiles1d[:].neutral[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].neutral[:].label

String identifying the species (e.g. H, D, T, He, C, D2, DT, CD4, ...)

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].neutral[:].multiple_states_flag

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].neutral[:].pressure

Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].pressure_σ

error of edgeprofiles.profiles1d[:].neutral[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].pressure_fast_parallel_σ

error of edgeprofiles.profiles1d[:].neutral[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].pressure_fast_perpendicular_σ

error of edgeprofiles.profiles1d[:].neutral[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].pressure_thermal_σ

error of edgeprofiles.profiles1d[:].neutral[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].density

Density (thermal+non-thermal)

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].density_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].density

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].density_fast

Density of fast (non-thermal) particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].density_fast_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].density_fast

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].density_thermal

Density of thermal particles

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].density_thermal_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].density_thermal

  • Units: m^-3
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].neutral[:].state[:].neutral_type.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].neutral[:].state[:].neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].neutral[:].state[:].neutral_type.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure

Pressure (thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_parallel

Fast (non-thermal) parallel pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_parallel_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].pressurefastparallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_perpendicular

Fast (non-thermal) perpendicular pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure_fast_perpendicular_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].pressurefastperpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure_thermal

Pressure (thermal) associated with random motion ~average((v-average(v))^2)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].pressure_thermal_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].temperature

Temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].temperature_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].neutral[:].state[:].vibrational_level_σ

error of edgeprofiles.profiles1d[:].neutral[:].state[:].vibrational_level

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].neutral[:].temperature

Temperature (average over charge states when multiple charge states are considered)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].neutral[:].temperature_σ

error of edgeprofiles.profiles1d[:].neutral[:].temperature

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].phi_potential

Electrostatic potential, averaged on the magnetic flux surface

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].phi_potential_σ

error of edgeprofiles.profiles1d[:].phi_potential

  • Units: V
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_ion_total

Total (sum over ion species) thermal ion pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_ion_total_σ

error of edgeprofiles.profiles1d[:].pressureiontotal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_parallel

Total parallel pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_parallel_σ

error of edgeprofiles.profiles1d[:].pressure_parallel

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_perpendicular

Total perpendicular pressure (electrons+ions, thermal+non-thermal)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_perpendicular_σ

error of edgeprofiles.profiles1d[:].pressure_perpendicular

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_thermal

Thermal pressure (electrons+ions)

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].pressure_thermal_σ

error of edgeprofiles.profiles1d[:].pressure_thermal

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].q

Safety factor

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].q_σ

error of edgeprofiles.profiles1d[:].q

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].rotation_frequency_tor_sonic

Derivative of the flux surface averaged electrostatic potential with respect to the poloidal flux, multiplied by -1. This quantity is the toroidal angular rotation frequency due to the ExB drift, introduced in formula (43) of Hinton and Wong, Physics of Fluids 3082 (1985), also referred to as sonic flow in regimes in which the toroidal velocity is dominant over the poloidal velocity

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].rotation_frequency_tor_sonic_σ

error of edgeprofiles.profiles1d[:].rotationfrequencytor_sonic

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].t_i_average

Ion temperature (averaged on charge states and ion species)

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].t_i_average_σ

error of edgeprofiles.profiles1d[:].tiaverage

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].t_i_average_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.chi_squared_σ

error of edgeprofiles.profiles1d[:].tiaveragefit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.measured

Measured values

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].t_i_average_fit.measured_σ

error of edgeprofiles.profiles1d[:].tiaverage_fit.measured

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].t_i_average_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].t_i_average_fit.reconstructed

Value reconstructed from the fit

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.reconstructed_σ

error of edgeprofiles.profiles1d[:].tiaverage_fit.reconstructed

  • Units: eV
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.rho_pol_norm

Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].tiaveragefit.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].tiaveragefit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.time_measurement_σ

error of edgeprofiles.profiles1d[:].tiaveragefit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].t_i_average_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].t_i_average_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].t_i_average_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.time_measurement_width_σ

error of edgeprofiles.profiles1d[:].tiaveragefit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].t_i_average_fit.weight_σ

error of edgeprofiles.profiles1d[:].tiaverage_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].t_i_average_fit.measured"]

edge_profiles.profiles_1d[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_profiles.profiles_1d[:].zeff

Effective charge

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].zeff_σ

error of edgeprofiles.profiles1d[:].zeff

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].grid.rho_pol_norm"]

edge_profiles.profiles_1d[:].zeff_fit.chi_squared

Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.chi_squared_σ

error of edgeprofiles.profiles1d[:].zefffit.chisquared

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.local

Integer flag : 1 means local measurement, 0 means line-integrated measurement

  • Data Type: INT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.measured

Measured values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].zeff_fit.measured_σ

error of edgeprofiles.profiles1d[:].zeff_fit.measured

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.profiles_1d[:].zeff_fit.parameters

List of the fit specific parameters in XML format

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].zeff_fit.reconstructed

Value reconstructed from the fit

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.reconstructed_σ

error of edgeprofiles.profiles1d[:].zeff_fit.reconstructed

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.rho_pol_norm

Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.rho_pol_norm_σ

error of edgeprofiles.profiles1d[:].zefffit.rhopol_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.rho_tor_norm

Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.rho_tor_norm_σ

error of edgeprofiles.profiles1d[:].zefffit.rhotor_norm

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.source

Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS

  • Data Type: STR_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.time_measurement

Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.time_measurement_σ

error of edgeprofiles.profiles1d[:].zefffit.timemeasurement

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.time_measurement_slice_method.description

Verbose description

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].zeff_fit.time_measurement_slice_method.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.profiles_1d[:].zeff_fit.time_measurement_slice_method.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.profiles_1d[:].zeff_fit.time_measurement_width

In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn't use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at timemeasurement-timewidth and ends at time_measurement.

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.time_measurement_width_σ

error of edgeprofiles.profiles1d[:].zefffit.timemeasurement_width

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.weight

Weight given to each measured value

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.profiles_1d[:].zeff_fit.weight_σ

error of edgeprofiles.profiles1d[:].zeff_fit.weight

  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.profiles_1d[:].zeff_fit.measured"]

edge_profiles.statistics[:].quantity_2d[:].distribution.bins

Bins of quantitiy values, defined for each element (first dimension) corresponding to the first dimension of the original 2D quantity

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].quantity_2d[:].distribution.bins_σ

error of edgeprofiles.statistics[:].quantity2d[:].distribution.bins

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].quantity_2d[:].distribution.probability

Probability to have a value of the quantity between bins(n) and bins(n+1) (thus the size of its second dimension is the size of the second dimension of the bins array - 1). The first dimension correspond to the first dimension of the original 2D quantity

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].quantity_2d[:].distribution.probability_σ

error of edgeprofiles.statistics[:].quantity2d[:].distribution.probability

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].quantity_2d[:].path

Path of the quantity within the IDS, following the syntax given in the link below

  • Data Type: STR_0D

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].grid_index

Only if the statistics value is given on a different GGD grid subset than the original quantity (e.g. if the statistics has worked over a dimension of the GGD), index of the grid used to represent the statistics value

  • Data Type: INT_0D

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].grid_subset_index

Only if the statistics value is given on a different GGD grid subset than the original quantity (e.g. if the statistics has worked over a dimension of the GGD), index of the new grid subset the statistics value is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].uq_input_path

For Sobol index only, path to the related the uqinput quantity, e.g. ../../../uqinput_2d(3)

  • Data Type: INT_0D

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].value

Value of the statistics for that quantity, the array corresponding to the first dimension of the original 2D quantity

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.statistics[:].quantity_2d[:].statistics_type[:].value_σ

error of edgeprofiles.statistics[:].quantity2d[:].statistics_type[:].value

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.statistics[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_profiles.statistics[:].time_width

Width of the time interval over which the statistics have been calculated. By convention, the time interval starts at time-time_width and ends at time.

  • Units: s
  • Data Type: FLT_0D

edge_profiles.statistics[:].time_width_σ

error of edgeprofiles.statistics[:].timewidth

  • Units: s
  • Data Type: FLT_0D

edge_profiles.statistics[:].uq_input_2d[:].distribution.bins

Bins of quantitiy values, defined for each element (first dimension) corresponding to the first dimension of the original 2D quantity

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].uq_input_2d[:].distribution.bins_σ

error of edgeprofiles.statistics[:].uqinput_2d[:].distribution.bins

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].uq_input_2d[:].distribution.probability

Probability to have a value of the quantity between bins(n) and bins(n+1) (thus the size of its second dimension is the size of the second dimension of the bins array - 1). The first dimension correspond to the first dimension of the original 2D quantity

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].uq_input_2d[:].distribution.probability_σ

error of edgeprofiles.statistics[:].uqinput_2d[:].distribution.probability

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_profiles.statistics[:].uq_input_2d[:].path

Path of the quantity within the IDS, following the syntax given in the link below

  • Data Type: STR_0D

edge_profiles.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_profiles.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.time"]

edge_profiles.vacuum_toroidal_field.b0_σ

error of edgeprofiles.vacuumtoroidal_field.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["edge_profiles.time"]

edge_profiles.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

edge_profiles.vacuum_toroidal_field.r0_σ

error of edgeprofiles.vacuumtoroidal_field.r0

  • Units: m
  • Data Type: FLT_0D

edge_sources.code.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_sources.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_sources.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_sources.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_sources.code.library[:].name

Name of software

  • Data Type: STR_0D

edge_sources.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_sources.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

edge_sources.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_sources.code.name

Name of software generating IDS

  • Data Type: STR_0D

edge_sources.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["edge_sources.time"]

edge_sources.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_sources.code.repository

URL of software repository

  • Data Type: STR_0D

edge_sources.code.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_sources.grid_ggd[:].grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element"]

edge_sources.grid_ggd[:].grid_subset[:].base[:].jacobian_σ

error of edgesources.gridggd[:].grid_subset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element"]

edge_sources.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant_σ

error of edgesources.gridggd[:].gridsubset[:].base[:].tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].grid_subset[:].base[:].tensor_covariant_σ

error of edgesources.gridggd[:].gridsubset[:].base[:].tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].grid_subset[:].dimension

Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

edge_sources.grid_ggd[:].grid_subset[:].element[:].object[:].dimension

Dimension of the object - using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

edge_sources.grid_ggd[:].grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

edge_sources.grid_ggd[:].grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

edge_sources.grid_ggd[:].grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_sources.grid_ggd[:].grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.grid_ggd[:].grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_sources.grid_ggd[:].grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element"]

edge_sources.grid_ggd[:].grid_subset[:].metric.jacobian_σ

error of edgesources.gridggd[:].grid_subset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element"]

edge_sources.grid_ggd[:].grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].grid_subset[:].metric.tensor_contravariant_σ

error of edgesources.gridggd[:].gridsubset[:].metric.tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].grid_subset[:].metric.tensor_covariant_σ

error of edgesources.gridggd[:].gridsubset[:].metric.tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_sources.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_sources.grid_ggd[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_sources.grid_ggd[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.grid_ggd[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_sources.grid_ggd[:].path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: IDS::wall/0/descriptionggd(1)/gridggd, means that the grid is located in the wall IDS, occurrence 0, with relative path descriptionggd(1)/gridggd, using Fortran index convention (here : first index of the array)

  • Data Type: STR_0D

edge_sources.grid_ggd[:].space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_sources.grid_ggd[:].space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

edge_sources.grid_ggd[:].space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.grid_ggd[:].space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

edge_sources.grid_ggd[:].space[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_sources.grid_ggd[:].space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.grid_ggd[:].space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object can possibly have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object, its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_σ

error of edgesources.gridggd[:].space[:].objectsperdimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of edgesources.gridggd[:].space[:].objectsperdimension[:].object[:].geometry_2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure_σ

error of edgesources.gridggd[:].space[:].objectsperdimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

edge_sources.grid_ggd[:].space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_sources.grid_ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_sources.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

edge_sources.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

edge_sources.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

edge_sources.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

edge_sources.ids_properties.occurrence

N/A

  • Data Type: INT_0D

edge_sources.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

edge_sources.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

edge_sources.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_sources.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

edge_sources.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

edge_sources.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

edge_sources.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

edge_sources.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

edge_sources.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

edge_sources.midplane.description

Verbose description

  • Data Type: STR_0D

edge_sources.midplane.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.midplane.name

Short string identifier

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].current[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].current[:].values", "1...N"]

edge_sources.source[:].ggd[:].current[:].coefficients_σ

error of edge_sources.source[:].ggd[:].current[:].coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].current[:].values", "1...N"]

edge_sources.source[:].ggd[:].current[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].current[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].current[:].values

One scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].current[:].values_σ

error of edge_sources.source[:].ggd[:].current[:].values

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].electrons.energy[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].electrons.energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].electrons.energy[:].coefficients_σ

error of edge_sources.source[:].ggd[:].electrons.energy[:].coefficients

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].electrons.energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].electrons.energy[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].electrons.energy[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].electrons.energy[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].electrons.energy[:].values_σ

error of edge_sources.source[:].ggd[:].electrons.energy[:].values

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].electrons.particles[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-3.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].electrons.particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].electrons.particles[:].coefficients_σ

error of edge_sources.source[:].ggd[:].electrons.particles[:].coefficients

  • Units: m^-3.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].electrons.particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].electrons.particles[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].electrons.particles[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].electrons.particles[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].electrons.particles[:].values_σ

error of edge_sources.source[:].ggd[:].electrons.particles[:].values

  • Units: m^-3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].element[:].a_σ

error of edge_sources.source[:].ggd[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].element[:].z_n_σ

error of edgesources.source[:].ggd[:].ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].energy[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].energy[:].coefficients_σ

error of edge_sources.source[:].ggd[:].ion[:].energy[:].coefficients

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].energy[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].energy[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].energy[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].energy[:].values_σ

error of edge_sources.source[:].ggd[:].ion[:].energy[:].values

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].ion[:].momentum[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].diamagnetic_σ

error of edge_sources.source[:].ggd[:].ion[:].momentum[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].diamagnetic_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].momentum[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].momentum[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].momentum[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].parallel_σ

error of edge_sources.source[:].ggd[:].ion[:].momentum[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].parallel_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].momentum[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].poloidal_σ

error of edge_sources.source[:].ggd[:].ion[:].momentum[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].poloidal_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].momentum[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].r_σ

error of edge_sources.source[:].ggd[:].ion[:].momentum[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].r_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].momentum[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].radial_σ

error of edge_sources.source[:].ggd[:].ion[:].momentum[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].radial_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].momentum[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].toroidal_σ

error of edge_sources.source[:].ggd[:].ion[:].momentum[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].toroidal_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].momentum[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].z_σ

error of edge_sources.source[:].ggd[:].ion[:].momentum[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].momentum[:].z_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].momentum[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].particles[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].particles[:].coefficients_σ

error of edge_sources.source[:].ggd[:].ion[:].particles[:].coefficients

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].particles[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].particles[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].particles[:].values

One scalar value is provided per element in the grid subset.

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].particles[:].values_σ

error of edge_sources.source[:].ggd[:].ion[:].particles[:].values

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].coefficients_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].coefficients

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].values_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].energy[:].values

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].label

String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].diamagnetic_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].diamagnetic_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].momentum[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].parallel_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].parallel_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].momentum[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].poloidal_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].poloidal_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].momentum[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].r_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].r_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].momentum[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].radial_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].radial_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].momentum[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].toroidal_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].toroidal_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].momentum[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].z_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].momentum[:].z_coefficients_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].momentum[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].coefficients_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].coefficients

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].values

One scalar value is provided per element in the grid subset.

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].values_σ

error of edge_sources.source[:].ggd[:].ion[:].state[:].particles[:].values

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].vibrational_level_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].ion[:].state[:].z_max

Maximum Z of the state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].z_max_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].z_min

Minimum Z of the state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].state[:].z_min_σ

error of edgesources.source[:].ggd[:].ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].ion[:].z_ion_σ

error of edgesources.source[:].ggd[:].ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].momentum[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].diamagnetic_σ

error of edge_sources.source[:].ggd[:].momentum[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].diamagnetic_coefficients_σ

error of edgesources.source[:].ggd[:].momentum[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].momentum[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].momentum[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].parallel_σ

error of edge_sources.source[:].ggd[:].momentum[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].parallel_coefficients_σ

error of edgesources.source[:].ggd[:].momentum[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].poloidal_σ

error of edge_sources.source[:].ggd[:].momentum[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].poloidal_coefficients_σ

error of edgesources.source[:].ggd[:].momentum[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].r_σ

error of edge_sources.source[:].ggd[:].momentum[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].r_coefficients_σ

error of edgesources.source[:].ggd[:].momentum[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].radial_σ

error of edge_sources.source[:].ggd[:].momentum[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].radial_coefficients_σ

error of edgesources.source[:].ggd[:].momentum[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].toroidal_σ

error of edge_sources.source[:].ggd[:].momentum[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].toroidal_coefficients_σ

error of edgesources.source[:].ggd[:].momentum[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].z_σ

error of edge_sources.source[:].ggd[:].momentum[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].momentum[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].momentum[:].z_coefficients_σ

error of edgesources.source[:].ggd[:].momentum[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].neutral[:].element[:].a_σ

error of edge_sources.source[:].ggd[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].neutral[:].element[:].z_n_σ

error of edgesources.source[:].ggd[:].neutral[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].neutral[:].energy[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].energy[:].coefficients_σ

error of edge_sources.source[:].ggd[:].neutral[:].energy[:].coefficients

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].energy[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].energy[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].energy[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].energy[:].values_σ

error of edge_sources.source[:].ggd[:].neutral[:].energy[:].values

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].neutral[:].momentum[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].diamagnetic_σ

error of edge_sources.source[:].ggd[:].neutral[:].momentum[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].diamagnetic_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].momentum[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].momentum[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].momentum[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].parallel_σ

error of edge_sources.source[:].ggd[:].neutral[:].momentum[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].parallel_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].momentum[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].poloidal_σ

error of edge_sources.source[:].ggd[:].neutral[:].momentum[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].poloidal_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].momentum[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].r_σ

error of edge_sources.source[:].ggd[:].neutral[:].momentum[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].r_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].momentum[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].radial_σ

error of edge_sources.source[:].ggd[:].neutral[:].momentum[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].radial_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].momentum[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].toroidal_σ

error of edge_sources.source[:].ggd[:].neutral[:].momentum[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].toroidal_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].momentum[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].z_σ

error of edge_sources.source[:].ggd[:].neutral[:].momentum[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].momentum[:].z_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].momentum[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].multiple_states_flag

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].particles[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].particles[:].coefficients_σ

error of edge_sources.source[:].ggd[:].neutral[:].particles[:].coefficients

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].particles[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].particles[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].particles[:].values

One scalar value is provided per element in the grid subset.

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].particles[:].values_σ

error of edge_sources.source[:].ggd[:].neutral[:].particles[:].values

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].coefficients_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].coefficients

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].values_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].energy[:].values

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].diamagnetic_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].diamagnetic_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].momentum[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].parallel_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].parallel_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].momentum[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].poloidal_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].poloidal_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].momentum[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].r_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].r_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].momentum[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].radial_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].radial_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].momentum[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].toroidal_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].toroidal_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].momentum[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].z_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].momentum[:].z_coefficients_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].momentum[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].neutral_type.description

Verbose description

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].neutral_type.name

Short string identifier

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].coefficients_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].coefficients

  • Units: s^-1.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].values", "1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].values

One scalar value is provided per element in the grid subset.

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].values_σ

error of edge_sources.source[:].ggd[:].neutral[:].state[:].particles[:].values

  • Units: s^-1.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].vibrational_level_σ

error of edgesources.source[:].ggd[:].neutral[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_sources.source[:].ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_sources.source[:].ggd[:].total_ion_energy[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].total_ion_energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].total_ion_energy[:].coefficients_σ

error of edgesources.source[:].ggd[:].totalion_energy[:].coefficients

  • Units: W.m^-3
  • Data Type: FLT_2D
  • Coordinates: ["edge_sources.source[:].ggd[:].total_ion_energy[:].values", "1...N"]

edge_sources.source[:].ggd[:].total_ion_energy[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].total_ion_energy[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd[:].total_ion_energy[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd[:].total_ion_energy[:].values_σ

error of edgesources.source[:].ggd[:].totalion_energy[:].values

  • Units: W.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_sources.source[:].ggd_fast[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].ion[:].element[:].a_σ

error of edgesources.source[:].ggdfast[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_sources.source[:].ggd_fast[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].ion[:].element[:].z_n_σ

error of edgesources.source[:].ggdfast[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].ion[:].label

String identifying ion (e.g. H+, D+, T+, He+2, C+, ...)

  • Data Type: STR_0D

edge_sources.source[:].ggd_fast[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

edge_sources.source[:].ggd_fast[:].ion[:].power[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_sources.source[:].ggd_fast[:].ion[:].power[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_sources.source[:].ggd_fast[:].ion[:].power[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: W
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].ion[:].power[:].value_σ

error of edgesources.source[:].ggdfast[:].ion[:].power[:].value

  • Units: W
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].ion[:].z_ion_σ

error of edgesources.source[:].ggdfast[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].ggd_fast[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_sources.source[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_sources.source[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.source[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_sources.source[:].species.ion.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.element[:].a_σ

error of edge_sources.source[:].species.ion.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_sources.source[:].species.ion.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.element[:].z_n_σ

error of edgesources.source[:].species.ion.element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.label

String identifying ion (e.g. H+, D+, T+, He+2, C+, ...)

  • Data Type: STR_0D

edge_sources.source[:].species.ion.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_sources.source[:].species.ion.state.label

String identifying ion state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

edge_sources.source[:].species.ion.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.state.vibrational_level_σ

error of edgesources.source[:].species.ion.state.vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_sources.source[:].species.ion.state.z_max

Maximum Z of the charge state bundle (equal to z_min if no bundle)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.state.z_max_σ

error of edgesources.source[:].species.ion.state.zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.state.z_min

Minimum Z of the charge state bundle (zmin = zmax = 0 for a neutral)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.state.z_min_σ

error of edgesources.source[:].species.ion.state.zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.ion.z_ion_σ

error of edgesources.source[:].species.ion.zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.neutral.element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.neutral.element[:].a_σ

error of edge_sources.source[:].species.neutral.element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.neutral.element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_sources.source[:].species.neutral.element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.neutral.element[:].z_n_σ

error of edgesources.source[:].species.neutral.element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.neutral.label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

edge_sources.source[:].species.neutral.state.electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_sources.source[:].species.neutral.state.label

String identifying neutral state

  • Data Type: STR_0D

edge_sources.source[:].species.neutral.state.neutral_type.description

Verbose description

  • Data Type: STR_0D

edge_sources.source[:].species.neutral.state.neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.source[:].species.neutral.state.neutral_type.name

Short string identifier

  • Data Type: STR_0D

edge_sources.source[:].species.neutral.state.vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.neutral.state.vibrational_level_σ

error of edgesources.source[:].species.neutral.state.vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_sources.source[:].species.neutral.state.vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_sources.source[:].species.type.description

Verbose description

  • Data Type: STR_0D

edge_sources.source[:].species.type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_sources.source[:].species.type.name

Short string identifier

  • Data Type: STR_0D

edge_sources.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.code.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.code.library[:].name

Name of software

  • Data Type: STR_0D

edge_transport.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_transport.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

edge_transport.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.code.name

Name of software generating IDS

  • Data Type: STR_0D

edge_transport.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["edge_transport.time"]

edge_transport.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_transport.code.repository

URL of software repository

  • Data Type: STR_0D

edge_transport.code.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.grid_ggd[:].grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element"]

edge_transport.grid_ggd[:].grid_subset[:].base[:].jacobian_σ

error of edgetransport.gridggd[:].grid_subset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element"]

edge_transport.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant_σ

error of edgetransport.gridggd[:].gridsubset[:].base[:].tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].grid_subset[:].base[:].tensor_covariant_σ

error of edgetransport.gridggd[:].gridsubset[:].base[:].tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].grid_subset[:].dimension

Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

edge_transport.grid_ggd[:].grid_subset[:].element[:].object[:].dimension

Dimension of the object - using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

edge_transport.grid_ggd[:].grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

edge_transport.grid_ggd[:].grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

edge_transport.grid_ggd[:].grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_transport.grid_ggd[:].grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.grid_ggd[:].grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_transport.grid_ggd[:].grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element"]

edge_transport.grid_ggd[:].grid_subset[:].metric.jacobian_σ

error of edgetransport.gridggd[:].grid_subset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element"]

edge_transport.grid_ggd[:].grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].grid_subset[:].metric.tensor_contravariant_σ

error of edgetransport.gridggd[:].gridsubset[:].metric.tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].grid_subset[:].metric.tensor_covariant_σ

error of edgetransport.gridggd[:].gridsubset[:].metric.tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["edge_transport.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

edge_transport.grid_ggd[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_transport.grid_ggd[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.grid_ggd[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_transport.grid_ggd[:].path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: IDS::wall/0/descriptionggd(1)/gridggd, means that the grid is located in the wall IDS, occurrence 0, with relative path descriptionggd(1)/gridggd, using Fortran index convention (here : first index of the array)

  • Data Type: STR_0D

edge_transport.grid_ggd[:].space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_transport.grid_ggd[:].space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

edge_transport.grid_ggd[:].space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.grid_ggd[:].space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

edge_transport.grid_ggd[:].space[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_transport.grid_ggd[:].space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.grid_ggd[:].space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object can possibly have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object, its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_σ

error of edgetransport.gridggd[:].space[:].objectsperdimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of edgetransport.gridggd[:].space[:].objectsperdimension[:].object[:].geometry_2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure_σ

error of edgetransport.gridggd[:].space[:].objectsperdimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

edge_transport.grid_ggd[:].space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

edge_transport.grid_ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_transport.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

edge_transport.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

edge_transport.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

edge_transport.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

edge_transport.ids_properties.occurrence

N/A

  • Data Type: INT_0D

edge_transport.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

edge_transport.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

edge_transport.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

edge_transport.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

edge_transport.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

edge_transport.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

edge_transport.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

edge_transport.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

edge_transport.midplane.description

Verbose description

  • Data Type: STR_0D

edge_transport.midplane.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.midplane.name

Short string identifier

  • Data Type: STR_0D

edge_transport.model[:].code.commit

Unique commit reference of software

  • Data Type: STR_0D

edge_transport.model[:].code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

edge_transport.model[:].code.name

Name of software used

  • Data Type: STR_0D

edge_transport.model[:].code.output_flag.data

Data

  • Data Type: INT_1D
  • Coordinates: ["edge_transport.model[:].code.output_flag.time"]

edge_transport.model[:].code.output_flag.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

edge_transport.model[:].code.repository

URL of software repository

  • Data Type: STR_0D

edge_transport.model[:].code.version

Unique version (tag) of software

  • Data Type: STR_0D

edge_transport.model[:].flux_multiplier

Multiplier applied to the particule flux when adding its contribution in the expression of the heat flux : can be 0, 3/2 or 5/2

  • Data Type: FLT_0D

edge_transport.model[:].flux_multiplier_σ

error of edgetransport.model[:].fluxmultiplier

  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].conductivity[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].conductivity[:].diamagnetic

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].conductivity[:].diamagneticcoefficients

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].conductivity[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].conductivity[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].parallel_σ

error of edge_transport.model[:].ggd[:].conductivity[:].parallel

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].conductivity[:].parallelcoefficients

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].poloidal_σ

error of edge_transport.model[:].ggd[:].conductivity[:].poloidal

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].conductivity[:].poloidalcoefficients

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].r_σ

error of edge_transport.model[:].ggd[:].conductivity[:].r

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].conductivity[:].rcoefficients

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].radial_σ

error of edge_transport.model[:].ggd[:].conductivity[:].radial

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].conductivity[:].radialcoefficients

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].toroidal_σ

error of edge_transport.model[:].ggd[:].conductivity[:].toroidal

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].conductivity[:].toroidalcoefficients

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].z_σ

error of edge_transport.model[:].ggd[:].conductivity[:].z

  • Units: ohm^-1.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].conductivity[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].conductivity[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].conductivity[:].zcoefficients

  • Units: ohm^-1.m^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].electrons.energy.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d[:].values_σ

error of edge_transport.model[:].ggd[:].electrons.energy.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.energy.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.energy.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.energy.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.energy.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].electrons.energy.flux[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux[:].values_σ

error of edge_transport.model[:].ggd[:].electrons.energy.flux[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.energy.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.energy.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.energy.fluxpol[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.energy.fluxpol[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.energy.fluxradial[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.energy.fluxradial[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].electrons.energy.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v[:].values_σ

error of edge_transport.model[:].ggd[:].electrons.energy.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.energy.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.energy.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.energy.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.energy.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.energy.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].electrons.particles.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d[:].values_σ

error of edge_transport.model[:].ggd[:].electrons.particles.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.particles.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.particles.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.particles.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.particles.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].electrons.particles.flux[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux[:].values_σ

error of edge_transport.model[:].ggd[:].electrons.particles.flux[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.particles.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.particles.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.particles.fluxpol[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.particles.fluxpol[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.particles.fluxradial[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.particles.fluxradial[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].electrons.particles.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v[:].values_σ

error of edge_transport.model[:].ggd[:].electrons.particles.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.particles.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.particles.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].electrons.particles.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].electrons.particles.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].electrons.particles.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].element[:].a_σ

error of edge_transport.model[:].ggd[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].element[:].z_n_σ

error of edgetransport.model[:].ggd[:].ion[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].energy.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].energy.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].energy.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].energy.flux[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].energy.flux[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.fluxpol[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.fluxpol[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.fluxradial[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.fluxradial[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].energy.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].energy.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].energy.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].energy.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.d[:].diamagnetic

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.d[:].diamagneticcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].parallel_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.d[:].parallel

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.d[:].parallelcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].poloidal_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.d[:].poloidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.d[:].poloidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].r_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.d[:].r

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.d[:].rcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].radial_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.d[:].radial

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.d[:].radialcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].toroidal_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.d[:].toroidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.d[:].toroidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].z_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.d[:].z

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.d[:].zcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.flux[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].parallel_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.flux[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].poloidal_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.flux[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].r_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.flux[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].radial_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.flux[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].toroidal_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.flux[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].z_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.flux[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].diamagnetic_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].diamagnetic

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].diamagnetic_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].parallel_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].parallel

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].parallel_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].poloidal_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].poloidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].poloidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].r_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].r

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].r_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].radial_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].radial

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].radial_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].toroidal_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].toroidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].toroidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].z_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].z

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_limiter[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxlimiter[:].z_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxpol[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxpol[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxradial[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.fluxradial[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.v[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.v[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].parallel_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.v[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.v[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].poloidal_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.v[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.v[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].r_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.v[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.v[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].radial_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.v[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.v[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].toroidal_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.v[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.v[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].z_σ

error of edge_transport.model[:].ggd[:].ion[:].momentum.v[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.v[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].momentum.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].momentum.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].multiple_states_flag

Multiple states calculation flag : 0-Only the 'ion' level is considered and the 'state' array of structure is empty; 1-Ion states are considered and are described in the 'state' array of structure

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].particles.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].particles.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].particles.flux[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].particles.flux[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.fluxpol[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.fluxpol[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.fluxradial[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.fluxradial[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].particles.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].particles.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].particles.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].particles.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].energy.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.fluxpol[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.fluxpol[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.fluxradial[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.fluxradial[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].energy.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].energy.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].energy.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].label

String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].diamagnetic

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.d[:].diamagneticcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].parallel_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].parallel

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.d[:].parallelcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].poloidal_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].poloidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.d[:].poloidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].r_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].r

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.d[:].rcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].radial_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].radial

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.d[:].radialcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].toroidal_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].toroidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.d[:].toroidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].z_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].z

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.d[:].zcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].parallel_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].poloidal_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].r_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].radial_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].toroidal_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].z_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.flux[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].diamagnetic_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].diamagnetic

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].diamagnetic_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].parallel_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].parallel

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].parallel_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].poloidal_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].poloidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].poloidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].r_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].r

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].r_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].radial_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].radial

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].radial_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].toroidal_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].toroidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].toroidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].z_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].z

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_limiter[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxlimiter[:].z_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxpol[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxpol[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxradial[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.fluxradial[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.v[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].parallel_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.v[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].poloidal_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.v[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].r_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.v[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].radial_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.v[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].toroidal_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.v[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].z_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.v[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].momentum.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].momentum.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].particles.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.fluxpol[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.fluxpol[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.fluxradial[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.fluxradial[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].values_σ

error of edge_transport.model[:].ggd[:].ion[:].state[:].particles.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].particles.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].particles.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].ion[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].vibrational_level_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].ion[:].state[:].z_max

Maximum Z of the state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].z_max_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].zmax

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].z_min

Minimum Z of the state bundle

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].state[:].z_min_σ

error of edgetransport.model[:].ggd[:].ion[:].state[:].zmin

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].ion[:].z_ion_σ

error of edgetransport.model[:].ggd[:].ion[:].zion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].momentum.d[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].momentum.d[:].diamagnetic

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.d[:].diamagneticcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.d[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].parallel_σ

error of edge_transport.model[:].ggd[:].momentum.d[:].parallel

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.d[:].parallelcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].poloidal_σ

error of edge_transport.model[:].ggd[:].momentum.d[:].poloidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.d[:].poloidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].r_σ

error of edge_transport.model[:].ggd[:].momentum.d[:].r

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.d[:].rcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].radial_σ

error of edge_transport.model[:].ggd[:].momentum.d[:].radial

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.d[:].radialcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].toroidal_σ

error of edge_transport.model[:].ggd[:].momentum.d[:].toroidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.d[:].toroidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].z_σ

error of edge_transport.model[:].ggd[:].momentum.d[:].z

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.d[:].zcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].momentum.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].momentum.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].momentum.flux[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.flux[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].parallel_σ

error of edge_transport.model[:].ggd[:].momentum.flux[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.flux[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].poloidal_σ

error of edge_transport.model[:].ggd[:].momentum.flux[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.flux[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].r_σ

error of edge_transport.model[:].ggd[:].momentum.flux[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.flux[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].radial_σ

error of edge_transport.model[:].ggd[:].momentum.flux[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.flux[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].toroidal_σ

error of edge_transport.model[:].ggd[:].momentum.flux[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.flux[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].z_σ

error of edge_transport.model[:].ggd[:].momentum.flux[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.flux[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].diamagnetic_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].diamagnetic

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].diamagnetic_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].parallel_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].parallel

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].parallel_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].poloidal_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].poloidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].poloidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].r_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].r

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].r_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].radial_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].radial

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].radial_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].toroidal_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].toroidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].toroidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].z_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].z

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_limiter[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxlimiter[:].z_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxpol[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].momentum.fluxpol[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.fluxradial[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].momentum.fluxradial[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].momentum.v[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.v[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.v[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].parallel_σ

error of edge_transport.model[:].ggd[:].momentum.v[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.v[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].poloidal_σ

error of edge_transport.model[:].ggd[:].momentum.v[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.v[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].r_σ

error of edge_transport.model[:].ggd[:].momentum.v[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.v[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].radial_σ

error of edge_transport.model[:].ggd[:].momentum.v[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.v[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].toroidal_σ

error of edge_transport.model[:].ggd[:].momentum.v[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.v[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].z_σ

error of edge_transport.model[:].ggd[:].momentum.v[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.v[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].momentum.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].momentum.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].momentum.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].momentum.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].momentum.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].momentum.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].momentum.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].neutral[:].element[:].a_σ

error of edge_transport.model[:].ggd[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].neutral[:].element[:].z_n_σ

error of edgetransport.model[:].ggd[:].neutral[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].energy.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].energy.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].energy.flux[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.fluxpol[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.fluxpol[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.fluxradial[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.fluxradial[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].energy.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].energy.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].energy.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].energy.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].diamagnetic

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.d[:].diamagneticcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].parallel_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].parallel

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.d[:].parallelcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].poloidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].poloidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.d[:].poloidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].r_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].r

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.d[:].rcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].radial_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].radial

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.d[:].radialcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].toroidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].toroidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.d[:].toroidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].z_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].z

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.d[:].zcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.flux[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].parallel_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.flux[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].poloidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.flux[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].r_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.flux[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].radial_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.flux[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].toroidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.flux[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].z_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.flux[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].diamagnetic_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].diamagnetic

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].diamagnetic_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].parallel_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].parallel

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].parallel_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].poloidal_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].poloidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].poloidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].r_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].r

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].r_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].radial_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].radial

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].radial_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].toroidal_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].toroidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].toroidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].z_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].z

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_limiter[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxlimiter[:].z_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxpol[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxpol[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxradial[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.fluxradial[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.v[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].parallel_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.v[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].poloidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.v[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].r_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.v[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].radial_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.v[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].toroidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.v[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].z_σ

error of edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.v[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].momentum.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].momentum.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].multiple_states_flag

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].particles.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].particles.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].particles.flux[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.fluxpol[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.fluxpol[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.fluxradial[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.fluxradial[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].particles.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].particles.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].particles.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].particles.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].electron_configuration

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.fluxpol[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.fluxpol[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.fluxradial[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.fluxradial[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].energy.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].energy.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].label

String identifying state

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].diamagnetic

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].diamagneticcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].parallel_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].parallel

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].parallelcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].poloidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].poloidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].poloidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].r_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].r

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].rcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].radial_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].radial

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].radialcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].toroidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].toroidal

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].toroidalcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].z_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].z

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.d[:].zcoefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].diamagnetic

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].diamagneticcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].parallel_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].parallel

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].parallelcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].poloidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].poloidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].poloidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].r_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].r

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].rcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].radial_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].radial

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].radialcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].toroidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].toroidal

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].toroidalcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].z_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].z

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.flux[:].zcoefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].diamagnetic_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].diamagnetic

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].diamagnetic_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].parallel_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].parallel

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].parallel_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].poloidal_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].poloidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].poloidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].r_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].r

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].r_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].radial_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].radial

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].radial_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].toroidal_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].toroidal

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].toroidal_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].z_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].z

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_limiter[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxlimiter[:].z_coefficients

  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxpol[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxpol[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxradial[:].coefficients

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.fluxradial[:].values

  • Units: kg.m^-1.s^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].diamagnetic

Diamagnetic component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].diamagnetic_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].diamagnetic

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].diamagnetic_coefficients

Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].diamagnetic_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].diamagneticcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].parallel

Parallel component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].parallel_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].parallel

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].parallel_coefficients

Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].parallel_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].parallelcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].poloidal

Poloidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].poloidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].poloidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].poloidal_coefficients

Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].poloidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].poloidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].r

Component along the major radius axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].r_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].r

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].r_coefficients

Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].r_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].rcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].radial

Radial component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].radial_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].radial

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].radial_coefficients

Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].radial_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].radialcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].toroidal

Toroidal component, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].toroidal_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].toroidal

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].toroidal_coefficients

Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].toroidal_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].toroidalcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].z

Component along the height axis, one scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].z_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].z

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].z_coefficients

Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].z_coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.v[:].zcoefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].momentum.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].momentum.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].neutral_type.description

Verbose description

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].neutral_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].neutral_type.name

Short string identifier

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.fluxpol[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.fluxpol[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.fluxradial[:].coefficients

  • Units: m^-2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.fluxradial[:].values

  • Units: m^-2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].coefficients_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].values_σ

error of edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].particles.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].particles.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].neutral[:].state[:].vibrational_level

Vibrational level (can be bundled)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].vibrational_level_σ

error of edgetransport.model[:].ggd[:].neutral[:].state[:].vibrationallevel

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].neutral[:].state[:].vibrational_mode

Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.

  • Data Type: STR_0D

edge_transport.model[:].ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_transport.model[:].ggd[:].total_ion_energy.d[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalion_energy.d[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.d[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.d[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.d[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d[:].values_σ

error of edgetransport.model[:].ggd[:].totalion_energy.d[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalionenergy.dpol[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_pol[:].values_σ

error of edgetransport.model[:].ggd[:].totalionenergy.dpol[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalionenergy.dradial[:].coefficients

  • Units: m^2.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.d_radial[:].values_σ

error of edgetransport.model[:].ggd[:].totalionenergy.dradial[:].values

  • Units: m^2.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalion_energy.flux[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux[:].values_σ

error of edgetransport.model[:].ggd[:].totalion_energy.flux[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalionenergy.fluxlimiter[:].coefficients

  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].values

One scalar value is provided per element in the grid subset.

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_limiter[:].values_σ

error of edgetransport.model[:].ggd[:].totalionenergy.fluxlimiter[:].values

  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalionenergy.fluxpol[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_pol[:].values_σ

error of edgetransport.model[:].ggd[:].totalionenergy.fluxpol[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalionenergy.fluxradial[:].coefficients

  • Units: W.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.flux_radial[:].values_σ

error of edgetransport.model[:].ggd[:].totalionenergy.fluxradial[:].values

  • Units: W.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalion_energy.v[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.v[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.v[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.v[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v[:].values_σ

error of edgetransport.model[:].ggd[:].totalion_energy.v[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalionenergy.vpol[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_pol[:].values_σ

error of edgetransport.model[:].ggd[:].totalionenergy.vpol[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].coefficients_σ

error of edgetransport.model[:].ggd[:].totalionenergy.vradial[:].coefficients

  • Units: m.s^-1
  • Data Type: FLT_2D
  • Coordinates: ["edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].values", "1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].values

One scalar value is provided per element in the grid subset.

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd[:].total_ion_energy.v_radial[:].values_σ

error of edgetransport.model[:].ggd[:].totalionenergy.vradial[:].values

  • Units: m.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

edge_transport.model[:].ggd_fast[:].electrons.particle_flux_integrated[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].electrons.particle_flux_integrated[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].electrons.particle_flux_integrated[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: s^-1
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].electrons.particle_flux_integrated[:].value_σ

error of edgetransport.model[:].ggdfast[:].electrons.particlefluxintegrated[:].value

  • Units: s^-1
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].electrons.power[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].electrons.power[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].electrons.power[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: W
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].electrons.power[:].value_σ

error of edgetransport.model[:].ggdfast[:].electrons.power[:].value

  • Units: W
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].energy_flux_max[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].energy_flux_max[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].energy_flux_max[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: W.m^-2
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].energy_flux_max[:].value_σ

error of edgetransport.model[:].ggdfast[:].energyfluxmax[:].value

  • Units: W.m^-2
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].element[:].a_σ

error of edgetransport.model[:].ggdfast[:].ion[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].ion[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].element[:].z_n_σ

error of edgetransport.model[:].ggdfast[:].ion[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].label

String identifying ion (e.g. H, D, T, He, C, D2, ...)

  • Data Type: STR_0D

edge_transport.model[:].ggd_fast[:].ion[:].neutral_index

Index of the corresponding neutral species in the ../../neutral array

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].ion[:].particle_flux_integrated[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].ion[:].particle_flux_integrated[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].ion[:].particle_flux_integrated[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: s^-1
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].particle_flux_integrated[:].value_σ

error of edgetransport.model[:].ggdfast[:].ion[:].particlefluxintegrated[:].value

  • Units: s^-1
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].z_ion

Ion charge (of the dominant ionisation state; lumped ions are allowed)

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].ion[:].z_ion_σ

error of edgetransport.model[:].ggdfast[:].ion[:].z_ion

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].element[:].a_σ

error of edgetransport.model[:].ggdfast[:].neutral[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].element[:].z_n_σ

error of edgetransport.model[:].ggdfast[:].neutral[:].element[:].z_n

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].ion_index

Index of the corresponding ion species in the ../../ion array

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

edge_transport.model[:].ggd_fast[:].neutral[:].particle_flux_integrated[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].particle_flux_integrated[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].particle_flux_integrated[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: s^-1
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].neutral[:].particle_flux_integrated[:].value_σ

error of edgetransport.model[:].ggdfast[:].neutral[:].particlefluxintegrated[:].value

  • Units: s^-1
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].power[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].power[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].power[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: W
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].power[:].value_σ

error of edgetransport.model[:].ggdfast[:].power[:].value

  • Units: W
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].power_ion_total[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].power_ion_total[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

edge_transport.model[:].ggd_fast[:].power_ion_total[:].value

Scalar value of the quantity on the grid subset (corresponding to a single local position or to an integrated value over the subset)

  • Units: W
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].power_ion_total[:].value_σ

error of edgetransport.model[:].ggdfast[:].poweriontotal[:].value

  • Units: W
  • Data Type: FLT_0D

edge_transport.model[:].ggd_fast[:].time

Time

  • Units: s
  • Data Type: FLT_0D

edge_transport.model[:].identifier.description

Verbose description

  • Data Type: STR_0D

edge_transport.model[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

edge_transport.model[:].identifier.name

Short string identifier

  • Data Type: STR_0D

edge_transport.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

em_coupling.active_coils

List of URIs of the active coils considered in the IDS

  • Data Type: STR_1D
  • Coordinates: ["pf_active.coil"]

em_coupling.b_field_pol_probes

List of URIs of the poloidal field probes considered in the IDS

  • Data Type: STR_1D
  • Coordinates: ["magnetics.b_field_pol_probe"]

em_coupling.b_field_pol_probes_active

Poloidal field coupling from active coils to poloidal field probes

  • Units: T/A
  • Data Type: FLT_2D
  • Coordinates: ["magnetics.b_field_pol_probe", "em_coupling.active_coils"]

em_coupling.b_field_pol_probes_active_σ

error of emcoupling.bfieldpolprobes_active

  • Units: T/A
  • Data Type: FLT_2D
  • Coordinates: ["magnetics.b_field_pol_probe", "em_coupling.active_coils"]

em_coupling.b_field_pol_probes_passive

Poloidal field coupling from passive loops to poloidal field probes

  • Units: T/A
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.b_field_pol_probes", "em_coupling.passive_loops"]

em_coupling.b_field_pol_probes_passive_σ

error of emcoupling.bfieldpolprobes_passive

  • Units: T/A
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.b_field_pol_probes", "em_coupling.passive_loops"]

em_coupling.b_field_pol_probes_plasma

Poloidal field coupling from plasma elements to poloidal field probes

  • Units: T/A
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.b_field_pol_probes", "em_coupling.plasma_elements"]

em_coupling.b_field_pol_probes_plasma_σ

error of emcoupling.bfieldpolprobes_plasma

  • Units: T/A
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.b_field_pol_probes", "em_coupling.plasma_elements"]

em_coupling.code.commit

Unique commit reference of software

  • Data Type: STR_0D

em_coupling.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

em_coupling.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

em_coupling.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

em_coupling.code.library[:].name

Name of software

  • Data Type: STR_0D

em_coupling.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

em_coupling.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

em_coupling.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

em_coupling.code.name

Name of software generating IDS

  • Data Type: STR_0D

em_coupling.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["em_coupling.time"]

em_coupling.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

em_coupling.code.repository

URL of software repository

  • Data Type: STR_0D

em_coupling.code.version

Unique version (tag) of software

  • Data Type: STR_0D

em_coupling.coupling_matrix[:].columns_uri

List of URIs corresponding to the columns (2nd dimension) of the coupling matrix. See examples above (rows_uri)

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

em_coupling.coupling_matrix[:].data

Coupling matrix

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.coupling_matrix[:].rows_uri", "em_coupling.coupling_matrix[:].columns_uri"]

em_coupling.coupling_matrix[:].data_σ

error of emcoupling.couplingmatrix[:].data

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.coupling_matrix[:].rows_uri", "em_coupling.coupling_matrix[:].columns_uri"]

em_coupling.coupling_matrix[:].name

Name of this coupling matrix

  • Data Type: STR_0D

em_coupling.coupling_matrix[:].quantity.description

Verbose description

  • Data Type: STR_0D

em_coupling.coupling_matrix[:].quantity.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

em_coupling.coupling_matrix[:].quantity.name

Short string identifier

  • Data Type: STR_0D

em_coupling.coupling_matrix[:].rows_uri

List of URIs corresponding to the rows (1st dimension) of the coupling matrix. If not all indices of a given node are used, they must be listed explicitly e.g. rowsuri(i) = pfactive:1/coil(i) will refer to a list of indices of the occurrence 1 of the pfactive IDS of this data entry. If the rows correspond to all indices of a given vector, it is sufficient to give a insgle uri, the one of the vector with the impliicit notation (:), e.g. rowsuri(1) = /gridggd(3)/gridsubset(2)/elements(:).

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

em_coupling.flux_loops

List of URIs of the flux loops considered in the IDS

  • Data Type: STR_1D
  • Coordinates: ["magnetics.flux_loop"]

em_coupling.grid_ggd[:].grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element"]

em_coupling.grid_ggd[:].grid_subset[:].base[:].jacobian_σ

error of emcoupling.gridggd[:].grid_subset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element"]

em_coupling.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].grid_subset[:].base[:].tensor_contravariant_σ

error of emcoupling.gridggd[:].gridsubset[:].base[:].tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].grid_subset[:].base[:].tensor_covariant_σ

error of emcoupling.gridggd[:].gridsubset[:].base[:].tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].grid_subset[:].dimension

Space dimension of the grid subset elements. This must be equal to the sum of the dimensions of the individual objects forming the element.

  • Data Type: INT_0D

em_coupling.grid_ggd[:].grid_subset[:].element[:].object[:].dimension

Dimension of the object

  • Data Type: INT_0D

em_coupling.grid_ggd[:].grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

em_coupling.grid_ggd[:].grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

em_coupling.grid_ggd[:].grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

em_coupling.grid_ggd[:].grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

em_coupling.grid_ggd[:].grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

em_coupling.grid_ggd[:].grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element"]

em_coupling.grid_ggd[:].grid_subset[:].metric.jacobian_σ

error of emcoupling.gridggd[:].grid_subset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element"]

em_coupling.grid_ggd[:].grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].grid_subset[:].metric.tensor_contravariant_σ

error of emcoupling.gridggd[:].gridsubset[:].metric.tensorcontravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].grid_subset[:].metric.tensor_covariant_σ

error of emcoupling.gridggd[:].gridsubset[:].metric.tensorcovariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["em_coupling.grid_ggd[:].grid_subset[:].element", "1...N", "1...N"]

em_coupling.grid_ggd[:].identifier.description

Verbose description

  • Data Type: STR_0D

em_coupling.grid_ggd[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

em_coupling.grid_ggd[:].identifier.name

Short string identifier

  • Data Type: STR_0D

em_coupling.grid_ggd[:].path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: IDS::wall/0/descriptionggd(1)/gridggd, means that the grid is located in the wall IDS, occurrence 0, with relative path descriptionggd(1)/gridggd, using Fortran index convention (here : first index of the array)

  • Data Type: STR_0D

em_coupling.grid_ggd[:].space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

em_coupling.grid_ggd[:].space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

em_coupling.grid_ggd[:].space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

em_coupling.grid_ggd[:].space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

em_coupling.grid_ggd[:].space[:].identifier.description

Verbose description

  • Data Type: STR_0D

em_coupling.grid_ggd[:].space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

em_coupling.grid_ggd[:].space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object may have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object. Its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_σ

error of emcoupling.gridggd[:].space[:].objectsperdimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of emcoupling.gridggd[:].space[:].objectsperdimension[:].object[:].geometry_2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].measure_σ

error of emcoupling.gridggd[:].space[:].objectsperdimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

em_coupling.grid_ggd[:].space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

em_coupling.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

em_coupling.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

em_coupling.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

em_coupling.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

em_coupling.ids_properties.occurrence

N/A

  • Data Type: INT_0D

em_coupling.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

em_coupling.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

em_coupling.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

em_coupling.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

em_coupling.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

em_coupling.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

em_coupling.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

em_coupling.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

em_coupling.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

em_coupling.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

em_coupling.mutual_active_active

Mutual inductance coupling from active coils to active coils

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.active_coils", "em_coupling.active_coils"]

em_coupling.mutual_active_active_σ

error of emcoupling.mutualactive_active

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.active_coils", "em_coupling.active_coils"]

em_coupling.mutual_loops_active

Mutual inductance coupling from active coils to flux loops

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.flux_loops", "em_coupling.active_coils"]

em_coupling.mutual_loops_active_σ

error of emcoupling.mutualloops_active

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.flux_loops", "em_coupling.active_coils"]

em_coupling.mutual_loops_passive

Mutual inductance coupling from passive loops to flux loops

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.flux_loops", "em_coupling.passive_loops"]

em_coupling.mutual_loops_passive_σ

error of emcoupling.mutualloops_passive

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.flux_loops", "em_coupling.passive_loops"]

em_coupling.mutual_loops_plasma

Mutual inductance from plasma elements to poloidal flux loops

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.flux_loops", "em_coupling.plasma_elements"]

em_coupling.mutual_loops_plasma_σ

error of emcoupling.mutualloops_plasma

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.flux_loops", "em_coupling.plasma_elements"]

em_coupling.mutual_passive_active

Mutual inductance coupling from active coils to passive loops

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.passive_loops", "em_coupling.active_coils"]

em_coupling.mutual_passive_active_σ

error of emcoupling.mutualpassive_active

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.passive_loops", "em_coupling.active_coils"]

em_coupling.mutual_passive_passive

Mutual inductance coupling from passive loops to passive loops

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.passive_loops", "em_coupling.passive_loops"]

em_coupling.mutual_passive_passive_σ

error of emcoupling.mutualpassive_passive

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.passive_loops", "em_coupling.passive_loops"]

em_coupling.mutual_plasma_active

Mutual inductance coupling from active coils to plasma elements

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.plasma_elements", "em_coupling.active_coils"]

em_coupling.mutual_plasma_active_σ

error of emcoupling.mutualplasma_active

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.plasma_elements", "em_coupling.active_coils"]

em_coupling.mutual_plasma_passive

Mutual inductance coupling from passive loops to plasma elements

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.plasma_elements", "em_coupling.passive_loops"]

em_coupling.mutual_plasma_passive_σ

error of emcoupling.mutualplasma_passive

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.plasma_elements", "em_coupling.passive_loops"]

em_coupling.mutual_plasma_plasma

Mutual inductance coupling from plasma elements to plasma elements

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.plasma_elements", "em_coupling.plasma_elements"]

em_coupling.mutual_plasma_plasma_σ

error of emcoupling.mutualplasma_plasma

  • Units: H
  • Data Type: FLT_2D
  • Coordinates: ["em_coupling.plasma_elements", "em_coupling.plasma_elements"]

em_coupling.passive_loops

List of URIs of the passive loops considered in the IDS

  • Data Type: STR_1D
  • Coordinates: ["pf_passive.loop"]

em_coupling.plasma_elements

List of URIs of the plasma elements considered in the IDS

  • Data Type: STR_1D
  • Coordinates: ["pf_plasma.element"]

em_coupling.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.code.commit

Unique commit reference of software

  • Data Type: STR_0D

equilibrium.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

equilibrium.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

equilibrium.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

equilibrium.code.library[:].name

Name of software

  • Data Type: STR_0D

equilibrium.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

equilibrium.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

equilibrium.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

equilibrium.code.name

Name of software generating IDS

  • Data Type: STR_0D

equilibrium.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["equilibrium.time"]

equilibrium.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

equilibrium.code.repository

URL of software repository

  • Data Type: STR_0D

equilibrium.code.version

Unique version (tag) of software

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].base[:].jacobian_σ

error of equilibrium.gridsggd[:].grid[:].gridsubset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].base[:].tensor_contravariant_σ

error of equilibrium.gridsggd[:].grid[:].gridsubset[:].base[:].tensor_contravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].base[:].tensor_covariant_σ

error of equilibrium.gridsggd[:].grid[:].gridsubset[:].base[:].tensor_covariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].dimension

Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].element[:].object[:].dimension

Dimension of the object - using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].metric.jacobian_σ

error of equilibrium.gridsggd[:].grid[:].gridsubset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].metric.tensor_contravariant_σ

error of equilibrium.gridsggd[:].grid[:].gridsubset[:].metric.tensor_contravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].grid_subset[:].metric.tensor_covariant_σ

error of equilibrium.gridsggd[:].grid[:].gridsubset[:].metric.tensor_covariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["equilibrium.grids_ggd[:].grid[:].grid_subset[:].element", "1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].identifier.description

Verbose description

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].identifier.name

Short string identifier

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: 'wall:0/descriptionggd(1)/gridggd', means that the grid is located in the wall IDS, occurrence 0, with ids path 'descriptionggd(1)/gridggd'. See the link below for more details about IDS paths

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

equilibrium.grids_ggd[:].grid[:].space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].space[:].identifier.description

Verbose description

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object can possibly have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object, its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].geometry_σ

error of equilibrium.gridsggd[:].grid[:].space[:].objectsper_dimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of equilibrium.gridsggd[:].grid[:].space[:].objectsperdimension[:].object[:].geometry2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].measure_σ

error of equilibrium.gridsggd[:].grid[:].space[:].objectsper_dimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

equilibrium.grids_ggd[:].grid[:].space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

equilibrium.grids_ggd[:].time

Time

  • Units: s
  • Data Type: FLT_0D

equilibrium.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

equilibrium.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

equilibrium.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

equilibrium.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

equilibrium.ids_properties.occurrence

N/A

  • Data Type: INT_0D

equilibrium.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

equilibrium.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

equilibrium.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

equilibrium.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

equilibrium.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

equilibrium.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

equilibrium.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

equilibrium.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

equilibrium.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

equilibrium.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].boundary.active_limiter_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.active_limiter_point.r_σ

error of equilibrium.timeslice[:].boundary.activelimiter_point.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.active_limiter_point.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.active_limiter_point.z_σ

error of equilibrium.timeslice[:].boundary.activelimiter_point.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.elongation

Elongation of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.elongation_σ

error of equilibrium.time_slice[:].boundary.elongation

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.elongation_lower

Elongation (lower half w.r.t. geometric axis) of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.elongation_lower_σ

error of equilibrium.timeslice[:].boundary.elongationlower

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.elongation_upper

Elongation (upper half w.r.t. geometric axis) of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.elongation_upper_σ

error of equilibrium.timeslice[:].boundary.elongationupper

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.geometric_axis.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.geometric_axis.r_σ

error of equilibrium.timeslice[:].boundary.geometricaxis.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.geometric_axis.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.geometric_axis.z_σ

error of equilibrium.timeslice[:].boundary.geometricaxis.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.minor_radius

Minor radius of the plasma boundary (defined as (Rmax-Rmin) / 2 of the boundary)

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.minor_radius_σ

error of equilibrium.timeslice[:].boundary.minorradius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].boundary.outline.r_σ

error of equilibrium.time_slice[:].boundary.outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].boundary.outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].boundary.outline.r"]

equilibrium.time_slice[:].boundary.outline.z_σ

error of equilibrium.time_slice[:].boundary.outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].boundary.outline.r"]

equilibrium.time_slice[:].boundary.ovality

Ovality of the plasma boundary [MXH c1]

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.ovality_σ

error of equilibrium.time_slice[:].boundary.ovality

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.psi

Value of the poloidal flux at which the boundary is taken

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.psi_σ

error of equilibrium.time_slice[:].boundary.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.psi_norm

Value of the normalised poloidal flux at which the boundary is taken (typically 99.x %), the flux being normalised to its value at the separatrix

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.psi_norm_σ

error of equilibrium.timeslice[:].boundary.psinorm

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness

Squareness of the plasma boundary [MXH -s2]

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_σ

error of equilibrium.time_slice[:].boundary.squareness

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_lower_inner

Lower inner squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_lower_inner_σ

error of equilibrium.timeslice[:].boundary.squarenesslower_inner

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_lower_outer

Lower outer squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_lower_outer_σ

error of equilibrium.timeslice[:].boundary.squarenesslower_outer

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_upper_inner

Upper inner squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_upper_inner_σ

error of equilibrium.timeslice[:].boundary.squarenessupper_inner

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_upper_outer

Upper outer squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.squareness_upper_outer_σ

error of equilibrium.timeslice[:].boundary.squarenessupper_outer

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.strike_point[:].last_closed_flux_surface_gap

Shortest distance beween the flux surface with the strike point and the last closed flux surface

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.strike_point[:].last_closed_flux_surface_gap_σ

error of equilibrium.timeslice[:].boundary.strikepoint[:].lastclosedfluxsurfacegap

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.strike_point[:].r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.strike_point[:].r_σ

error of equilibrium.timeslice[:].boundary.strikepoint[:].r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.strike_point[:].z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.strike_point[:].z_σ

error of equilibrium.timeslice[:].boundary.strikepoint[:].z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.tilt

Tilt of the plasma boundary [MXH c0]

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.tilt_σ

error of equilibrium.time_slice[:].boundary.tilt

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.triangularity

Triangularity of the plasma boundary [MXH sin(s1)]

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.triangularity_σ

error of equilibrium.time_slice[:].boundary.triangularity

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.triangularity_lower

Lower triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.triangularity_lower_σ

error of equilibrium.timeslice[:].boundary.triangularitylower

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.triangularity_upper

Upper triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.triangularity_upper_σ

error of equilibrium.timeslice[:].boundary.triangularityupper

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.twist

Twist of the plasma boundary [MXH c2]

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.twist_σ

error of equilibrium.time_slice[:].boundary.twist

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.type

0 (limiter) or 1 (diverted)

  • Data Type: INT_0D

equilibrium.time_slice[:].boundary.x_point[:].r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.x_point[:].r_σ

error of equilibrium.timeslice[:].boundary.xpoint[:].r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.x_point[:].z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary.x_point[:].z_σ

error of equilibrium.timeslice[:].boundary.xpoint[:].z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.distance_inner_outer

Distance between the inner and outer separatrices, in the major radius direction, at the plasma outboard and at the height corresponding to the maximum R for the inner separatrix.

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.distance_inner_outer_σ

error of equilibrium.timeslice[:].boundarysecondaryseparatrix.distanceinner_outer

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].boundary_secondary_separatrix.outline.r_σ

error of equilibrium.timeslice[:].boundarysecondary_separatrix.outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].boundary_secondary_separatrix.outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].boundary_secondary_separatrix.outline.r"]

equilibrium.time_slice[:].boundary_secondary_separatrix.outline.z_σ

error of equilibrium.timeslice[:].boundarysecondary_separatrix.outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].boundary_secondary_separatrix.outline.r"]

equilibrium.time_slice[:].boundary_secondary_separatrix.psi

Value of the poloidal flux at the separatrix

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.psi_σ

error of equilibrium.timeslice[:].boundarysecondary_separatrix.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.strike_point[:].last_closed_flux_surface_gap

Shortest distance beween the flux surface with the strike point and the last closed flux surface

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.strike_point[:].last_closed_flux_surface_gap_σ

error of equilibrium.timeslice[:].boundarysecondaryseparatrix.strikepoint[:].lastclosedfluxsurfacegap

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.strike_point[:].r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.strike_point[:].r_σ

error of equilibrium.timeslice[:].boundarysecondaryseparatrix.strikepoint[:].r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.strike_point[:].z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.strike_point[:].z_σ

error of equilibrium.timeslice[:].boundarysecondaryseparatrix.strikepoint[:].z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.x_point[:].r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.x_point[:].r_σ

error of equilibrium.timeslice[:].boundarysecondaryseparatrix.xpoint[:].r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.x_point[:].z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_secondary_separatrix.x_point[:].z_σ

error of equilibrium.timeslice[:].boundarysecondaryseparatrix.xpoint[:].z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.active_limiter_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.active_limiter_point.r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.activelimiterpoint.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.active_limiter_point.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.active_limiter_point.z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.activelimiterpoint.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.closest_wall_point.distance

Distance to the plasma boundary

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.closest_wall_point.distance_σ

error of equilibrium.timeslice[:].boundaryseparatrix.closestwallpoint.distance

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.closest_wall_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.closest_wall_point.r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.closestwallpoint.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.closest_wall_point.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.closest_wall_point.z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.closestwallpoint.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.dr_dz_zero_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.dr_dz_zero_point.r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.drdzzero_point.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.dr_dz_zero_point.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.dr_dz_zero_point.z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.drdzzero_point.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.elongation

Elongation of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.elongation_σ

error of equilibrium.timeslice[:].boundaryseparatrix.elongation

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.elongation_lower

Elongation (lower half w.r.t. geometric axis) of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.elongation_lower_σ

error of equilibrium.timeslice[:].boundaryseparatrix.elongation_lower

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.elongation_upper

Elongation (upper half w.r.t. geometric axis) of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.elongation_upper_σ

error of equilibrium.timeslice[:].boundaryseparatrix.elongation_upper

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].angle

Angle measured clockwise from radial cylindrical vector (grad R) to gap vector (pointing away from reference point)

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].angle_σ

error of equilibrium.timeslice[:].boundaryseparatrix.gap[:].angle

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].identifier

Identifier of the gap

  • Data Type: STR_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].name

Name of the gap

  • Data Type: STR_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].r

Major radius of the reference point

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.gap[:].r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].value

Value of the gap, i.e. distance between the reference point and the separatrix along the gap direction

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].value_σ

error of equilibrium.timeslice[:].boundaryseparatrix.gap[:].value

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].z

Height of the reference point

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.gap[:].z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.gap[:].z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.geometric_axis.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.geometric_axis.r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.geometric_axis.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.geometric_axis.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.geometric_axis.z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.geometric_axis.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.minor_radius

Minor radius of the plasma boundary (defined as (Rmax-Rmin) / 2 of the boundary)

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.minor_radius_σ

error of equilibrium.timeslice[:].boundaryseparatrix.minor_radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].boundary_separatrix.outline.r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].boundary_separatrix.outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].boundary_separatrix.outline.r"]

equilibrium.time_slice[:].boundary_separatrix.outline.z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].boundary_separatrix.outline.r"]

equilibrium.time_slice[:].boundary_separatrix.psi

Value of the poloidal flux at the separatrix

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.psi_σ

error of equilibrium.timeslice[:].boundaryseparatrix.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_lower_inner

Lower inner squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_lower_inner_σ

error of equilibrium.timeslice[:].boundaryseparatrix.squarenesslowerinner

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_lower_outer

Lower outer squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_lower_outer_σ

error of equilibrium.timeslice[:].boundaryseparatrix.squarenesslowerouter

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_upper_inner

Upper inner squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_upper_inner_σ

error of equilibrium.timeslice[:].boundaryseparatrix.squarenessupperinner

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_upper_outer

Upper outer squareness of the plasma boundary (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.squareness_upper_outer_σ

error of equilibrium.timeslice[:].boundaryseparatrix.squarenessupperouter

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.strike_point[:].last_closed_flux_surface_gap

Shortest distance beween the flux surface with the strike point and the last closed flux surface

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.strike_point[:].last_closed_flux_surface_gap_σ

error of equilibrium.timeslice[:].boundaryseparatrix.strikepoint[:].lastclosedfluxsurface_gap

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.strike_point[:].r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.strike_point[:].r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.strike_point[:].r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.strike_point[:].z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.strike_point[:].z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.strike_point[:].z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity

Triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_σ

error of equilibrium.timeslice[:].boundaryseparatrix.triangularity

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_inner

Inner triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_inner_σ

error of equilibrium.timeslice[:].boundaryseparatrix.triangularity_inner

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_lower

Lower triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_lower_σ

error of equilibrium.timeslice[:].boundaryseparatrix.triangularity_lower

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_minor

Minor triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_minor_σ

error of equilibrium.timeslice[:].boundaryseparatrix.triangularity_minor

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_outer

Outer triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_outer_σ

error of equilibrium.timeslice[:].boundaryseparatrix.triangularity_outer

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_upper

Upper triangularity of the plasma boundary

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.triangularity_upper_σ

error of equilibrium.timeslice[:].boundaryseparatrix.triangularity_upper

  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.type

0 (limiter) or 1 (diverted)

  • Data Type: INT_0D

equilibrium.time_slice[:].boundary_separatrix.x_point[:].r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.x_point[:].r_σ

error of equilibrium.timeslice[:].boundaryseparatrix.x_point[:].r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.x_point[:].z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].boundary_separatrix.x_point[:].z_σ

error of equilibrium.timeslice[:].boundaryseparatrix.x_point[:].z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.chi_squared_σ

error of equilibrium.timeslice[:].constraints.bfieldtorvacuumr.chisquared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.measured

Measured value

  • Units: T.m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.measured_σ

error of equilibrium.timeslice[:].constraints.bfieldtorvacuum_r.measured

  • Units: T.m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.reconstructed

Value calculated from the reconstructed equilibrium

  • Units: T.m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.reconstructed_σ

error of equilibrium.timeslice[:].constraints.bfieldtorvacuum_r.reconstructed

  • Units: T.m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.time_measurement_σ

error of equilibrium.timeslice[:].constraints.bfieldtorvacuumr.timemeasurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.b_field_tor_vacuum_r.weight_σ

error of equilibrium.timeslice[:].constraints.bfieldtorvacuum_r.weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.bpolprobe[:].chi_squared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].measured

Measured value

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].measured_σ

error of equilibrium.timeslice[:].constraints.bpolprobe[:].measured

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.bpolprobe[:].reconstructed

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.bpolprobe[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.bpol_probe[:].weight_σ

error of equilibrium.timeslice[:].constraints.bpolprobe[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.chi_squared_reduced

Sum of the chi_squared of all constraints used for the equilibrium reconstruction, divided by the number of degrees of freedom of the identification model

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.chi_squared_reduced_σ

error of equilibrium.timeslice[:].constraints.chisquared_reduced

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.constraints_n

Number of constraints used (i.e. having a non-zero weight)

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.chi_squared_σ

error of equilibrium.timeslice[:].constraints.diamagneticflux.chi_squared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.measured

Measured value

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.measured_σ

error of equilibrium.timeslice[:].constraints.diamagneticflux.measured

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.reconstructed

Value calculated from the reconstructed equilibrium

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.reconstructed_σ

error of equilibrium.timeslice[:].constraints.diamagneticflux.reconstructed

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.time_measurement_σ

error of equilibrium.timeslice[:].constraints.diamagneticflux.time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.diamagnetic_flux.weight_σ

error of equilibrium.timeslice[:].constraints.diamagneticflux.weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.faradayangle[:].chi_squared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].measured

Measured value

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].measured_σ

error of equilibrium.timeslice[:].constraints.faradayangle[:].measured

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.faradayangle[:].reconstructed

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.faradayangle[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.faraday_angle[:].weight_σ

error of equilibrium.timeslice[:].constraints.faradayangle[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.fluxloop[:].chi_squared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].measured

Measured value

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].measured_σ

error of equilibrium.timeslice[:].constraints.fluxloop[:].measured

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.fluxloop[:].reconstructed

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.flux_loop[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.fluxloop[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.flux_loop[:].weight_σ

error of equilibrium.timeslice[:].constraints.fluxloop[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.freedom_degrees_n

Number of degrees of freedom of the identification model

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.ip.chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.chi_squared_σ

error of equilibrium.timeslice[:].constraints.ip.chisquared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.ip.measured

Measured value

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.measured_σ

error of equilibrium.time_slice[:].constraints.ip.measured

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.reconstructed

Value calculated from the reconstructed equilibrium

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.reconstructed_σ

error of equilibrium.time_slice[:].constraints.ip.reconstructed

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.ip.time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.time_measurement_σ

error of equilibrium.timeslice[:].constraints.ip.timemeasurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.ip.weight_σ

error of equilibrium.time_slice[:].constraints.ip.weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.chi_squared_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationr.chi_squared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.measured

Measured value

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.measured_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationr.measured

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.reconstructed

Value calculated from the reconstructed equilibrium

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.reconstructed_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationr.reconstructed

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.time_measurement_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationr.time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_r.weight_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationr.weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.chi_squared_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationz.chi_squared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.measured

Measured value

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.measured_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationz.measured

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.reconstructed

Value calculated from the reconstructed equilibrium

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.reconstructed_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationz.reconstructed

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.time_measurement_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationz.time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.iron_core_segment[:].magnetisation_z.weight_σ

error of equilibrium.timeslice[:].constraints.ironcoresegment[:].magnetisationz.weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].chi_squared

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].measured

Measured value

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].measured_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].measured

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.phi_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].position.phi

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.psi_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].position.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.r_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].position.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.rho_tor_norm_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].position.rhotornorm

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].position.z_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].position.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].reconstructed

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.j_parallel[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_parallel[:].weight_σ

error of equilibrium.timeslice[:].constraints.jparallel[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.jtor[:].chi_squared

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.j_tor[:].measured

Measured value

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].measured_σ

error of equilibrium.timeslice[:].constraints.jtor[:].measured

  • Units: A.m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.phi_σ

error of equilibrium.timeslice[:].constraints.jtor[:].position.phi

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.psi_σ

error of equilibrium.timeslice[:].constraints.jtor[:].position.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.r_σ

error of equilibrium.timeslice[:].constraints.jtor[:].position.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.rho_tor_norm_σ

error of equilibrium.timeslice[:].constraints.jtor[:].position.rhotornorm

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].position.z_σ

error of equilibrium.timeslice[:].constraints.jtor[:].position.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.jtor[:].reconstructed

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.j_tor[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.jtor[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.j_tor[:].weight_σ

error of equilibrium.timeslice[:].constraints.jtor[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.msepolarisationangle[:].chisquared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].measured

Measured value

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].measured_σ

error of equilibrium.timeslice[:].constraints.msepolarisation_angle[:].measured

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.msepolarisation_angle[:].reconstructed

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.msepolarisationangle[:].timemeasurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.mse_polarisation_angle[:].weight_σ

error of equilibrium.timeslice[:].constraints.msepolarisation_angle[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: m^-3
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.ne[:].chi_squared

  • Units: m^-3
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.n_e[:].measured

Measured value

  • Units: m^-3
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].measured_σ

error of equilibrium.timeslice[:].constraints.ne[:].measured

  • Units: m^-3
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.phi_σ

error of equilibrium.timeslice[:].constraints.ne[:].position.phi

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.psi_σ

error of equilibrium.timeslice[:].constraints.ne[:].position.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.r_σ

error of equilibrium.timeslice[:].constraints.ne[:].position.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.rho_tor_norm_σ

error of equilibrium.timeslice[:].constraints.ne[:].position.rhotornorm

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].position.z_σ

error of equilibrium.timeslice[:].constraints.ne[:].position.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.ne[:].reconstructed

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.n_e[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.ne[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e[:].weight_σ

error of equilibrium.timeslice[:].constraints.ne[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.neline[:].chisquared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].measured

Measured value

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].measured_σ

error of equilibrium.timeslice[:].constraints.ne_line[:].measured

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.ne_line[:].reconstructed

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.n_e_line[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.neline[:].timemeasurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.n_e_line[:].weight_σ

error of equilibrium.timeslice[:].constraints.ne_line[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.pfcurrent[:].chi_squared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.pf_current[:].measured

Measured value

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].measured_σ

error of equilibrium.timeslice[:].constraints.pfcurrent[:].measured

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.pfcurrent[:].reconstructed

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.pf_current[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.pfcurrent[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_current[:].weight_σ

error of equilibrium.timeslice[:].constraints.pfcurrent[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.pfpassivecurrent[:].chisquared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].measured

Measured value

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].measured_σ

error of equilibrium.timeslice[:].constraints.pfpassive_current[:].measured

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.pfpassive_current[:].reconstructed

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.pfpassivecurrent[:].timemeasurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pf_passive_current[:].weight_σ

error of equilibrium.timeslice[:].constraints.pfpassive_current[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.pressure[:].chisquared

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.pressure[:].measured

Measured value

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].measured_σ

error of equilibrium.time_slice[:].constraints.pressure[:].measured

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.phi_σ

error of equilibrium.time_slice[:].constraints.pressure[:].position.phi

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.psi_σ

error of equilibrium.time_slice[:].constraints.pressure[:].position.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.r_σ

error of equilibrium.time_slice[:].constraints.pressure[:].position.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.rho_tor_norm_σ

error of equilibrium.timeslice[:].constraints.pressure[:].position.rhotor_norm

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].position.z_σ

error of equilibrium.time_slice[:].constraints.pressure[:].position.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].reconstructed_σ

error of equilibrium.time_slice[:].constraints.pressure[:].reconstructed

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.pressure[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.pressure[:].timemeasurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure[:].weight_σ

error of equilibrium.time_slice[:].constraints.pressure[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].chi_squared

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].measured

Measured value

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].measured_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].measured

  • Units: Pa
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.phi_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].position.phi

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.psi_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].position.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.r_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].position.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.rho_tor_norm_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].position.rhotornorm

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].position.z_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].position.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].reconstructed_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].reconstructed

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.pressure_rotational[:].weight_σ

error of equilibrium.timeslice[:].constraints.pressurerotational[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].chi_squared

Squared error normalized by the variance considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].chi_squared_σ

error of equilibrium.timeslice[:].constraints.q[:].chisquared

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.q[:].measured

Measured value

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].measured_σ

error of equilibrium.time_slice[:].constraints.q[:].measured

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.phi_σ

error of equilibrium.time_slice[:].constraints.q[:].position.phi

  • Units: rad
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.psi

Poloidal magnetic flux

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.psi_σ

error of equilibrium.time_slice[:].constraints.q[:].position.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.r_σ

error of equilibrium.time_slice[:].constraints.q[:].position.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see timeslice/boundary/bfluxpolnorm in the equilibrium IDS)

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.rho_tor_norm_σ

error of equilibrium.timeslice[:].constraints.q[:].position.rhotor_norm

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].position.z_σ

error of equilibrium.time_slice[:].constraints.q[:].position.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].reconstructed

Value calculated from the reconstructed equilibrium

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].reconstructed_σ

error of equilibrium.time_slice[:].constraints.q[:].reconstructed

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.q[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.q[:].timemeasurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.q[:].weight_σ

error of equilibrium.time_slice[:].constraints.q[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].chi_squared_r

Squared error on the major radius normalized by the variance considered in the minimization process : chisquared = weight^2 *(positionreconstructed/r - position_measured/r)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].chi_squared_r_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].chisquaredr

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].chi_squared_z

Squared error on the altitude normalized by the variance considered in the minimization process : chisquared = weight^2 *(positionreconstructed/z - position_measured/z)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].chi_squared_z_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].chisquaredz

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_measured.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_measured.r_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].position_measured.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_measured.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_measured.z_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].position_measured.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_reconstructed.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_reconstructed.r_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].position_reconstructed.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_reconstructed.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].position_reconstructed.z_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].position_reconstructed.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.strike_point[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.strike_point[:].weight_σ

error of equilibrium.timeslice[:].constraints.strikepoint[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].chi_squared_r

Squared error on the major radius normalized by the variance considered in the minimization process : chisquared = weight^2 *(positionreconstructed/r - position_measured/r)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].chi_squared_r_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].chisquaredr

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].chi_squared_z

Squared error on the altitude normalized by the variance considered in the minimization process : chisquared = weight^2 *(positionreconstructed/z - position_measured/z)^2 / sigma^2, where sigma is the standard deviation of the measurement error

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].chi_squared_z_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].chisquaredz

  • Units: m^-2
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].exact

Integer flag : 1 means exact data, taken as an exact input without being fitted; 0 means the equilibrium code does a least square fit

  • Data Type: INT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_measured.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_measured.r_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].position_measured.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_measured.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_measured.z_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].position_measured.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_reconstructed.r

Major radius

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_reconstructed.r_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].position_reconstructed.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_reconstructed.z

Height

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].position_reconstructed.z_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].position_reconstructed.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].source

Path to the source data for this measurement in the IMAS data dictionary

  • Data Type: STR_0D

equilibrium.time_slice[:].constraints.x_point[:].time_measurement

Exact time slice used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].time_measurement_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].time_measurement

  • Units: s
  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].weight

Weight given to the measurement

  • Data Type: FLT_0D

equilibrium.time_slice[:].constraints.x_point[:].weight_σ

error of equilibrium.timeslice[:].constraints.xpoint[:].weight

  • Data Type: FLT_0D

equilibrium.time_slice[:].convergence.grad_shafranov_deviation_expression.description

Verbose description

  • Data Type: STR_0D

equilibrium.time_slice[:].convergence.grad_shafranov_deviation_expression.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.time_slice[:].convergence.grad_shafranov_deviation_expression.name

Short string identifier

  • Data Type: STR_0D

equilibrium.time_slice[:].convergence.grad_shafranov_deviation_value

Value of the residual deviation between the left and right hand side of the Grad Shafranov equation, evaluated as per gradshafranovdeviation_expression

  • Units: mixed
  • Data Type: FLT_0D

equilibrium.time_slice[:].convergence.grad_shafranov_deviation_value_σ

error of equilibrium.timeslice[:].convergence.gradshafranovdeviationvalue

  • Units: mixed
  • Data Type: FLT_0D

equilibrium.time_slice[:].convergence.iterations_n

Number of iterations carried out in the convergence loop

  • Data Type: INT_0D

equilibrium.time_slice[:].convergence.result.description

Verbose description

  • Data Type: STR_0D

equilibrium.time_slice[:].convergence.result.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.time_slice[:].convergence.result.name

Short string identifier

  • Data Type: STR_0D

equilibrium.time_slice[:].coordinate_system.grid.dim1

First dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].coordinate_system.grid.dim1_σ

error of equilibrium.timeslice[:].coordinatesystem.grid.dim1

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].coordinate_system.grid.dim2

Second dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].coordinate_system.grid.dim2_σ

error of equilibrium.timeslice[:].coordinatesystem.grid.dim2

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].coordinate_system.grid.volume_element

Elementary plasma volume of plasma enclosed in the cell formed by the nodes [dim1(i) dim2(j)], [dim1(i+1) dim2(j)], [dim1(i) dim2(j+1)] and [dim1(i+1) dim2(j+1)]

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].coordinate_system.grid.volume_element_σ

error of equilibrium.timeslice[:].coordinatesystem.grid.volume_element

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].coordinate_system.grid_type.description

Verbose description

  • Data Type: STR_0D

equilibrium.time_slice[:].coordinate_system.grid_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.time_slice[:].coordinate_system.grid_type.name

Short string identifier

  • Data Type: STR_0D

equilibrium.time_slice[:].coordinate_system.jacobian

Absolute value of the jacobian of the coordinate system

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].coordinate_system.jacobian_σ

error of equilibrium.timeslice[:].coordinatesystem.jacobian

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].coordinate_system.r

Values of the major radius on the grid

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].coordinate_system.r_σ

error of equilibrium.timeslice[:].coordinatesystem.r

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].coordinate_system.tensor_contravariant

Contravariant metric tensor on every point of the grid described by grid_type

  • Units: mixed
  • Data Type: FLT_4D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2", "1...3", "1...3"]

equilibrium.time_slice[:].coordinate_system.tensor_contravariant_σ

error of equilibrium.timeslice[:].coordinatesystem.tensor_contravariant

  • Units: mixed
  • Data Type: FLT_4D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2", "1...3", "1...3"]

equilibrium.time_slice[:].coordinate_system.tensor_covariant

Covariant metric tensor on every point of the grid described by grid_type

  • Units: mixed
  • Data Type: FLT_4D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2", "1...3", "1...3"]

equilibrium.time_slice[:].coordinate_system.tensor_covariant_σ

error of equilibrium.timeslice[:].coordinatesystem.tensor_covariant

  • Units: mixed
  • Data Type: FLT_4D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2", "1...3", "1...3"]

equilibrium.time_slice[:].coordinate_system.z

Values of the Height on the grid

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].coordinate_system.z_σ

error of equilibrium.timeslice[:].coordinatesystem.z

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].coordinate_system.grid.dim1", "equilibrium.time_slice[:].coordinate_system.grid.dim2"]

equilibrium.time_slice[:].ggd[:].b_field_r[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].b_field_r[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].b_field_r[:].coefficients_σ

error of equilibrium.timeslice[:].ggd[:].bfield_r[:].coefficients

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].b_field_r[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].b_field_r[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].b_field_r[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].b_field_r[:].values

One scalar value is provided per element in the grid subset.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].b_field_r[:].values_σ

error of equilibrium.timeslice[:].ggd[:].bfield_r[:].values

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].b_field_tor[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].b_field_tor[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].b_field_tor[:].coefficients_σ

error of equilibrium.timeslice[:].ggd[:].bfield_tor[:].coefficients

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].b_field_tor[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].b_field_tor[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].b_field_tor[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].b_field_tor[:].values

One scalar value is provided per element in the grid subset.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].b_field_tor[:].values_σ

error of equilibrium.timeslice[:].ggd[:].bfield_tor[:].values

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].b_field_z[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].b_field_z[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].b_field_z[:].coefficients_σ

error of equilibrium.timeslice[:].ggd[:].bfield_z[:].coefficients

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].b_field_z[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].b_field_z[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].b_field_z[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].b_field_z[:].values

One scalar value is provided per element in the grid subset.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].b_field_z[:].values_σ

error of equilibrium.timeslice[:].ggd[:].bfield_z[:].values

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].j_parallel[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].j_parallel[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].j_parallel[:].coefficients_σ

error of equilibrium.timeslice[:].ggd[:].jparallel[:].coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].j_parallel[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].j_parallel[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].j_parallel[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].j_parallel[:].values

One scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].j_parallel[:].values_σ

error of equilibrium.timeslice[:].ggd[:].jparallel[:].values

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].j_tor[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].j_tor[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].j_tor[:].coefficients_σ

error of equilibrium.timeslice[:].ggd[:].jtor[:].coefficients

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].j_tor[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].j_tor[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].j_tor[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].j_tor[:].values

One scalar value is provided per element in the grid subset.

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].j_tor[:].values_σ

error of equilibrium.timeslice[:].ggd[:].jtor[:].values

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].phi[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].phi[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].phi[:].coefficients_σ

error of equilibrium.time_slice[:].ggd[:].phi[:].coefficients

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].phi[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].phi[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].phi[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].phi[:].values

One scalar value is provided per element in the grid subset.

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].phi[:].values_σ

error of equilibrium.time_slice[:].ggd[:].phi[:].values

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].psi[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].psi[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].psi[:].coefficients_σ

error of equilibrium.time_slice[:].ggd[:].psi[:].coefficients

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].psi[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].psi[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].psi[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].psi[:].values

One scalar value is provided per element in the grid subset.

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].psi[:].values_σ

error of equilibrium.time_slice[:].ggd[:].psi[:].values

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].r[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].r[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].r[:].coefficients_σ

error of equilibrium.time_slice[:].ggd[:].r[:].coefficients

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].r[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].r[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].r[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].r[:].values

One scalar value is provided per element in the grid subset.

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].r[:].values_σ

error of equilibrium.time_slice[:].ggd[:].r[:].values

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].theta[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].theta[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].theta[:].coefficients_σ

error of equilibrium.time_slice[:].ggd[:].theta[:].coefficients

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].theta[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].theta[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].theta[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].theta[:].values

One scalar value is provided per element in the grid subset.

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].theta[:].values_σ

error of equilibrium.time_slice[:].ggd[:].theta[:].values

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].z[:].coefficients

Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].z[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].z[:].coefficients_σ

error of equilibrium.time_slice[:].ggd[:].z[:].coefficients

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].ggd[:].z[:].values", "1...N"]

equilibrium.time_slice[:].ggd[:].z[:].grid_index

Index of the grid used to represent this quantity

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].z[:].grid_subset_index

Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index

  • Data Type: INT_0D

equilibrium.time_slice[:].ggd[:].z[:].values

One scalar value is provided per element in the grid subset.

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].ggd[:].z[:].values_σ

error of equilibrium.time_slice[:].ggd[:].z[:].values

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].global_quantities.area

Area of the LCFS poloidal cross section

  • Units: m^2
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.area_σ

error of equilibrium.timeslice[:].globalquantities.area

  • Units: m^2
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.beta_normal

Normalised toroidal beta, defined as 100 * beta_tor * a[m] * B0 [T] / ip [MA]

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.beta_normal_σ

error of equilibrium.timeslice[:].globalquantities.beta_normal

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.beta_pol

Poloidal beta. Defined as betap = 4 int(p dV) / [R0 * mu0 * Ip^2]

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.beta_pol_σ

error of equilibrium.timeslice[:].globalquantities.beta_pol

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.beta_tor

Toroidal beta, defined as the volume-averaged total perpendicular pressure divided by (B0^2/(2*mu0)), i.e. beta_toroidal = 2 mu0 int(p dV) / V / B0^2

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.beta_tor_σ

error of equilibrium.timeslice[:].globalquantities.beta_tor

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.current_centre.r

Major radius of the current center, defined as integral over the poloidal cross section of (j_torrdS) / Ip

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.current_centre.r_σ

error of equilibrium.timeslice[:].globalquantities.current_centre.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.current_centre.velocity_z

Vertical velocity of the current center

  • Units: m.s^-1
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.current_centre.velocity_z_σ

error of equilibrium.timeslice[:].globalquantities.currentcentre.velocityz

  • Units: m.s^-1
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.current_centre.z

Height of the current center, defined as integral over the poloidal cross section of (j_torzdS) / Ip

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.current_centre.z_σ

error of equilibrium.timeslice[:].globalquantities.current_centre.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.energy_mhd

Plasma energy content = 3/2 * int(p,dV) with p being the total pressure (thermal + fast particles) [J]. Time-dependent; Scalar

  • Units: J
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.energy_mhd_σ

error of equilibrium.timeslice[:].globalquantities.energy_mhd

  • Units: J
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.ip

Plasma current (toroidal component). Positive sign means anti-clockwise when viewed from above.

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.ip_σ

error of equilibrium.timeslice[:].globalquantities.ip

  • Units: A
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.length_pol

Poloidal length of the magnetic surface

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.length_pol_σ

error of equilibrium.timeslice[:].globalquantities.length_pol

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.li_3

Internal inductance

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.li_3_σ

error of equilibrium.timeslice[:].globalquantities.li_3

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.magnetic_axis.b_field_tor

Total toroidal magnetic field at the magnetic axis

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.magnetic_axis.b_field_tor_σ

error of equilibrium.timeslice[:].globalquantities.magneticaxis.bfield_tor

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.magnetic_axis.r

Major radius of the magnetic axis

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.magnetic_axis.r_σ

error of equilibrium.timeslice[:].globalquantities.magnetic_axis.r

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.magnetic_axis.z

Height of the magnetic axis

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.magnetic_axis.z_σ

error of equilibrium.timeslice[:].globalquantities.magnetic_axis.z

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.plasma_inductance

Plasma inductance 2 Emagnetic/Ip^2, where Emagnetic = 1/2 * int(psi.j_tor.dS) (integral over the plasma poloidal cross-section)

  • Units: H
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.plasma_inductance_σ

error of equilibrium.timeslice[:].globalquantities.plasma_inductance

  • Units: H
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.plasma_resistance

Plasma resistance = int(e_field.j.dV) / Ip^2

  • Units: ohm
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.plasma_resistance_σ

error of equilibrium.timeslice[:].globalquantities.plasma_resistance

  • Units: ohm
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.psi_axis

Poloidal flux at the magnetic axis

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.psi_axis_σ

error of equilibrium.timeslice[:].globalquantities.psi_axis

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.psi_boundary

Poloidal flux at the selected plasma boundary

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.psi_boundary_σ

error of equilibrium.timeslice[:].globalquantities.psi_boundary

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.psi_external_average

Average (over the plasma poloidal cross section) plasma poloidal magnetic flux produced by all external circuits (CS and PF coils, eddy currents, VS in-vessel coils), given by the following formula : int(psiexternal.jtor.dS) / Ip

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.psi_external_average_σ

error of equilibrium.timeslice[:].globalquantities.psiexternalaverage

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_95

q at the 95% poloidal flux surface (IMAS uses COCOS=11: only positive when toroidal current and magnetic field are in same direction)

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_95_σ

error of equilibrium.timeslice[:].globalquantities.q_95

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_axis

q at the magnetic axis

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_axis_σ

error of equilibrium.timeslice[:].globalquantities.q_axis

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.psi

Minimum q position in poloidal flux

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.psi_σ

error of equilibrium.timeslice[:].globalquantities.q_min.psi

  • Units: Wb
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.psi_norm

Minimum q position in normalised poloidal flux

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.psi_norm_σ

error of equilibrium.timeslice[:].globalquantities.qmin.psinorm

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.rho_tor_norm

Minimum q position in normalised toroidal flux coordinate

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.rho_tor_norm_σ

error of equilibrium.timeslice[:].globalquantities.qmin.rhotor_norm

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.value

Minimum q value

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.q_min.value_σ

error of equilibrium.timeslice[:].globalquantities.q_min.value

  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.rho_tor_boundary

Toroidal flux coordinate at the selected plasma boundary

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.rho_tor_boundary_σ

error of equilibrium.timeslice[:].globalquantities.rhotorboundary

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.surface_σ

error of equilibrium.timeslice[:].globalquantities.surface

  • Units: m^2
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.v_external

External voltage, i.e. time derivative of psiexternalaverage (with a minus sign : - dpsiexternalaverage/dtime)

  • Units: V
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.v_external_σ

error of equilibrium.timeslice[:].globalquantities.v_external

  • Units: V
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.vacuum_toroidal_field.b0_σ

error of equilibrium.timeslice[:].globalquantities.vacuumtoroidalfield.b0

  • Units: T
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.vacuum_toroidal_field.r0_σ

error of equilibrium.timeslice[:].globalquantities.vacuumtoroidalfield.r0

  • Units: m
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.volume

Total plasma volume

  • Units: m^3
  • Data Type: FLT_0D

equilibrium.time_slice[:].global_quantities.volume_σ

error of equilibrium.timeslice[:].globalquantities.volume

  • Units: m^3
  • Data Type: FLT_0D

equilibrium.time_slice[:].profiles_1d.area

Cross-sectional area of the flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.area_σ

error of equilibrium.timeslice[:].profiles1d.area

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.b_field_average

Flux surface averaged modulus of B (always positive, irrespective of the sign convention for the B-field direction).

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.b_field_average_σ

error of equilibrium.timeslice[:].profiles1d.bfieldaverage

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.b_field_max

Maximum(modulus(B)) on the flux surface (always positive, irrespective of the sign convention for the B-field direction)

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.b_field_max_σ

error of equilibrium.timeslice[:].profiles1d.bfieldmax

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.b_field_min

Minimum(modulus(B)) on the flux surface (always positive, irrespective of the sign convention for the B-field direction)

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.b_field_min_σ

error of equilibrium.timeslice[:].profiles1d.bfieldmin

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.beta_pol

Poloidal beta profile. Defined as betap = 4 int(p dV) / [R0 * mu0 * Ip^2]

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.beta_pol_σ

error of equilibrium.timeslice[:].profiles1d.beta_pol

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.darea_dpsi

Radial derivative of the cross-sectional area of the flux surface with respect to psi

  • Units: m^2.Wb^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.darea_dpsi_σ

error of equilibrium.timeslice[:].profiles1d.darea_dpsi

  • Units: m^2.Wb^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.darea_drho_tor

Radial derivative of the cross-sectional area of the flux surface with respect to rho_tor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.darea_drho_tor_σ

error of equilibrium.timeslice[:].profiles1d.dareadrhotor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dpressure_dpsi

Derivative of pressure w.r.t. psi

  • Units: Pa.Wb^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dpressure_dpsi_σ

error of equilibrium.timeslice[:].profiles1d.dpressure_dpsi

  • Units: Pa.Wb^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dpsi_drho_tor

Derivative of Psi with respect to Rho_Tor

  • Units: Wb/m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dpsi_drho_tor_σ

error of equilibrium.timeslice[:].profiles1d.dpsidrhotor

  • Units: Wb/m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dvolume_dpsi

Radial derivative of the volume enclosed in the flux surface with respect to Psi

  • Units: m^3.Wb^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dvolume_dpsi_σ

error of equilibrium.timeslice[:].profiles1d.dvolume_dpsi

  • Units: m^3.Wb^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dvolume_drho_tor

Radial derivative of the volume enclosed in the flux surface with respect to Rho_Tor

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.dvolume_drho_tor_σ

error of equilibrium.timeslice[:].profiles1d.dvolumedrhotor

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.elongation

Elongation

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.elongation_σ

error of equilibrium.timeslice[:].profiles1d.elongation

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.f

Diamagnetic function (F=R B_Phi)

  • Units: T.m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.f_σ

error of equilibrium.timeslice[:].profiles1d.f

  • Units: T.m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.f_df_dpsi

Derivative of F w.r.t. Psi, multiplied with F

  • Units: T^2.m^2/Wb
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.f_df_dpsi_σ

error of equilibrium.timeslice[:].profiles1d.fdfdpsi

  • Units: T^2.m^2/Wb
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.fsa_bp

Flux surface averaged Bp

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.fsa_bp_σ

error of equilibrium.timeslice[:].profiles1d.fsa_bp

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.geometric_axis.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.geometric_axis.r_σ

error of equilibrium.timeslice[:].profiles1d.geometric_axis.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.geometric_axis.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.geometric_axis.z_σ

error of equilibrium.timeslice[:].profiles1d.geometric_axis.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm1

Flux surface averaged 1/R^2

  • Units: m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm1_σ

error of equilibrium.timeslice[:].profiles1d.gm1

  • Units: m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm10

Flux surface averaged R^2

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm10_σ

error of equilibrium.timeslice[:].profiles1d.gm10

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm2

Flux surface averaged |gradrhotor|^2/R^2

  • Units: m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm2_σ

error of equilibrium.timeslice[:].profiles1d.gm2

  • Units: m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm3

Flux surface averaged |gradrhotor|^2

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm3_σ

error of equilibrium.timeslice[:].profiles1d.gm3

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm4

Flux surface averaged 1/B^2

  • Units: T^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm4_σ

error of equilibrium.timeslice[:].profiles1d.gm4

  • Units: T^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm5

Flux surface averaged B^2

  • Units: T^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm5_σ

error of equilibrium.timeslice[:].profiles1d.gm5

  • Units: T^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm6

Flux surface averaged |gradrhotor|^2/B^2

  • Units: T^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm6_σ

error of equilibrium.timeslice[:].profiles1d.gm6

  • Units: T^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm7

Flux surface averaged |gradrhotor|

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm7_σ

error of equilibrium.timeslice[:].profiles1d.gm7

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm8

Flux surface averaged R

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm8_σ

error of equilibrium.timeslice[:].profiles1d.gm8

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm9

Flux surface averaged 1/R

  • Units: m^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.gm9_σ

error of equilibrium.timeslice[:].profiles1d.gm9

  • Units: m^-1
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.j_parallel

Flux surface averaged approximation to parallel current density = average(j.B) / B0, where B0 = /vacuumtoroidalfield/b0

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.j_parallel_σ

error of equilibrium.timeslice[:].profiles1d.j_parallel

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.j_tor

Flux surface averaged toroidal current density = average(j_tor/R) / average(1/R)

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.j_tor_σ

error of equilibrium.timeslice[:].profiles1d.j_tor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.magnetic_shear

Magnetic shear, defined as rhotor/q . dq/drhotor

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.magnetic_shear_σ

error of equilibrium.timeslice[:].profiles1d.magnetic_shear

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.mass_density

Mass density

  • Units: kg.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.mass_density_σ

error of equilibrium.timeslice[:].profiles1d.mass_density

  • Units: kg.m^-3
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.phi

Toroidal flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.phi_σ

error of equilibrium.timeslice[:].profiles1d.phi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.pressure

Pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.pressure_σ

error of equilibrium.timeslice[:].profiles1d.pressure

  • Units: Pa
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.psi

Poloidal flux

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].profiles_1d.psi_σ

error of equilibrium.timeslice[:].profiles1d.psi

  • Units: Wb
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].profiles_1d.psi_norm

Normalised poloidal flux coordinate

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.psi_norm_σ

error of equilibrium.timeslice[:].profiles1d.psi_norm

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.q

Safety factor (IMAS uses COCOS=11: only positive when toroidal current and magnetic field are in same direction)

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.q_σ

error of equilibrium.timeslice[:].profiles1d.q

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.r_inboard

Radial coordinate (major radius) on the inboard side of the magnetic axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.r_inboard_σ

error of equilibrium.timeslice[:].profiles1d.r_inboard

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.r_outboard

Radial coordinate (major radius) on the outboard side of the magnetic axis

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.r_outboard_σ

error of equilibrium.timeslice[:].profiles1d.r_outboard

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.rho_tor

Toroidal flux coordinate = sqrt(phi/(pi*b0)), where the toroidal flux, phi, corresponds to timeslice/profiles1d/phi, the toroidal magnetic field, b0, corresponds to vacuumtoroidalfield/b0 and pi can be found in the IMAS constants

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.rho_tor_σ

error of equilibrium.timeslice[:].profiles1d.rho_tor

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.rho_tor_norm

Normalised toroidal flux coordinate. The normalizing value for rhotornorm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation)

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.rho_tor_norm_σ

error of equilibrium.timeslice[:].profiles1d.rhotornorm

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.rho_volume_norm

Normalised square root of enclosed volume (radial coordinate). The normalizing value is the enclosed volume at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation)

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.rho_volume_norm_σ

error of equilibrium.timeslice[:].profiles1d.rhovolumenorm

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_lower_inner

Lower inner squareness (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_lower_inner_σ

error of equilibrium.timeslice[:].profiles1d.squarenesslowerinner

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_lower_outer

Lower outer squareness (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_lower_outer_σ

error of equilibrium.timeslice[:].profiles1d.squarenesslowerouter

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_upper_inner

Upper inner squareness (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_upper_inner_σ

error of equilibrium.timeslice[:].profiles1d.squarenessupperinner

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_upper_outer

Upper outer squareness (definition from T. Luce, Plasma Phys. Control. Fusion 55 (2013) 095009)

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.squareness_upper_outer_σ

error of equilibrium.timeslice[:].profiles1d.squarenessupperouter

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.surface

Surface area of the toroidal flux surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.surface_σ

error of equilibrium.timeslice[:].profiles1d.surface

  • Units: m^2
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.trapped_fraction

Trapped particle fraction

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.trapped_fraction_σ

error of equilibrium.timeslice[:].profiles1d.trapped_fraction

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.triangularity_lower

Lower triangularity w.r.t. magnetic axis

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.triangularity_lower_σ

error of equilibrium.timeslice[:].profiles1d.triangularity_lower

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.triangularity_upper

Upper triangularity w.r.t. magnetic axis

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.triangularity_upper_σ

error of equilibrium.timeslice[:].profiles1d.triangularity_upper

  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.volume

Volume enclosed in the flux surface

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_1d.volume_σ

error of equilibrium.timeslice[:].profiles1d.volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time_slice[:].profiles_1d.psi"]

equilibrium.time_slice[:].profiles_2d[:].b_field_r

R component of the poloidal magnetic field

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].b_field_r_σ

error of equilibrium.timeslice[:].profiles2d[:].bfieldr

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].b_field_tor

Toroidal component of the magnetic field

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].b_field_tor_σ

error of equilibrium.timeslice[:].profiles2d[:].bfieldtor

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].b_field_z

Z component of the poloidal magnetic field

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].b_field_z_σ

error of equilibrium.timeslice[:].profiles2d[:].bfieldz

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].grid.dim1

First dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].profiles_2d[:].grid.dim1_σ

error of equilibrium.timeslice[:].profiles2d[:].grid.dim1

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].profiles_2d[:].grid.dim2

Second dimension values

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].profiles_2d[:].grid.dim2_σ

error of equilibrium.timeslice[:].profiles2d[:].grid.dim2

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

equilibrium.time_slice[:].profiles_2d[:].grid.volume_element

Elementary plasma volume of plasma enclosed in the cell formed by the nodes [dim1(i) dim2(j)], [dim1(i+1) dim2(j)], [dim1(i) dim2(j+1)] and [dim1(i+1) dim2(j+1)]

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].grid.volume_element_σ

error of equilibrium.timeslice[:].profiles2d[:].grid.volume_element

  • Units: m^3
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].grid_type.description

Verbose description

  • Data Type: STR_0D

equilibrium.time_slice[:].profiles_2d[:].grid_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.time_slice[:].profiles_2d[:].grid_type.name

Short string identifier

  • Data Type: STR_0D

equilibrium.time_slice[:].profiles_2d[:].j_parallel

Defined as (j.B)/B0 where j and B are the current density and magnetic field vectors and B0 is the (signed) vacuum toroidal magnetic field strength at the geometric reference point (R0,Z0). It is formally not the component of the plasma current density parallel to the magnetic field

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].j_parallel_σ

error of equilibrium.timeslice[:].profiles2d[:].j_parallel

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].j_tor

Toroidal plasma current density

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].j_tor_σ

error of equilibrium.timeslice[:].profiles2d[:].j_tor

  • Units: A.m^-2
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].phi

Toroidal flux

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].phi_σ

error of equilibrium.timeslice[:].profiles2d[:].phi

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].psi

Values of the poloidal flux at the grid in the poloidal plane

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].psi_σ

error of equilibrium.timeslice[:].profiles2d[:].psi

  • Units: Wb
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].r

Values of the major radius on the grid

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].r_σ

error of equilibrium.timeslice[:].profiles2d[:].r

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].theta

Values of the poloidal angle on the grid

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].theta_σ

error of equilibrium.timeslice[:].profiles2d[:].theta

  • Units: rad
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].type.description

Verbose description

  • Data Type: STR_0D

equilibrium.time_slice[:].profiles_2d[:].type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

equilibrium.time_slice[:].profiles_2d[:].type.name

Short string identifier

  • Data Type: STR_0D

equilibrium.time_slice[:].profiles_2d[:].z

Values of the Height on the grid

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].profiles_2d[:].z_σ

error of equilibrium.timeslice[:].profiles2d[:].z

  • Units: m
  • Data Type: FLT_2D
  • Coordinates: ["equilibrium.time_slice[:].profiles_2d[:].grid.dim1", "equilibrium.time_slice[:].profiles_2d[:].grid.dim2"]

equilibrium.time_slice[:].time

Time

  • Units: s
  • Data Type: FLT_0D

equilibrium.vacuum_toroidal_field.b0

Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the btorvacuum_r field of the tf IDS.

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time"]

equilibrium.vacuum_toroidal_field.b0_σ

error of equilibrium.vacuumtoroidalfield.b0

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["equilibrium.time"]

equilibrium.vacuum_toroidal_field.r0

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

  • Units: m
  • Data Type: FLT_0D

equilibrium.vacuum_toroidal_field.r0_σ

error of equilibrium.vacuumtoroidalfield.r0

  • Units: m
  • Data Type: FLT_0D

ferritic.code.commit

Unique commit reference of software

  • Data Type: STR_0D

ferritic.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ferritic.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ferritic.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ferritic.code.library[:].name

Name of software

  • Data Type: STR_0D

ferritic.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ferritic.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

ferritic.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ferritic.code.name

Name of software generating IDS

  • Data Type: STR_0D

ferritic.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["ferritic.time"]

ferritic.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ferritic.code.repository

URL of software repository

  • Data Type: STR_0D

ferritic.code.version

Unique version (tag) of software

  • Data Type: STR_0D

ferritic.grid_ggd.grid_subset[:].base[:].jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element"]

ferritic.grid_ggd.grid_subset[:].base[:].jacobian_σ

error of ferritic.gridggd.gridsubset[:].base[:].jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element"]

ferritic.grid_ggd.grid_subset[:].base[:].tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.grid_subset[:].base[:].tensor_contravariant_σ

error of ferritic.gridggd.gridsubset[:].base[:].tensor_contravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.grid_subset[:].base[:].tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.grid_subset[:].base[:].tensor_covariant_σ

error of ferritic.gridggd.gridsubset[:].base[:].tensor_covariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.grid_subset[:].dimension

Space dimension of the grid subset elements. This must be equal to the sum of the dimensions of the individual objects forming the element.

  • Data Type: INT_0D

ferritic.grid_ggd.grid_subset[:].element[:].object[:].dimension

Dimension of the object

  • Data Type: INT_0D

ferritic.grid_ggd.grid_subset[:].element[:].object[:].index

Object index

  • Data Type: INT_0D

ferritic.grid_ggd.grid_subset[:].element[:].object[:].space

Index of the space from which that object is taken

  • Data Type: INT_0D

ferritic.grid_ggd.grid_subset[:].identifier.description

Verbose description

  • Data Type: STR_0D

ferritic.grid_ggd.grid_subset[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ferritic.grid_ggd.grid_subset[:].identifier.name

Short string identifier

  • Data Type: STR_0D

ferritic.grid_ggd.grid_subset[:].metric.jacobian

Metric Jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element"]

ferritic.grid_ggd.grid_subset[:].metric.jacobian_σ

error of ferritic.gridggd.gridsubset[:].metric.jacobian

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element"]

ferritic.grid_ggd.grid_subset[:].metric.tensor_contravariant

Contravariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.grid_subset[:].metric.tensor_contravariant_σ

error of ferritic.gridggd.gridsubset[:].metric.tensor_contravariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.grid_subset[:].metric.tensor_covariant

Covariant metric tensor, given on each element of the subgrid (first dimension)

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.grid_subset[:].metric.tensor_covariant_σ

error of ferritic.gridggd.gridsubset[:].metric.tensor_covariant

  • Units: mixed
  • Data Type: FLT_3D
  • Coordinates: ["ferritic.grid_ggd.grid_subset[:].element", "1...N", "1...N"]

ferritic.grid_ggd.identifier.description

Verbose description

  • Data Type: STR_0D

ferritic.grid_ggd.identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ferritic.grid_ggd.identifier.name

Short string identifier

  • Data Type: STR_0D

ferritic.grid_ggd.path

Path of the grid, including the IDS name, in case of implicit reference to a gridggd node described in another IDS. To be filled only if the grid is not described explicitly in this gridggd structure. Example syntax: IDS::wall/0/descriptionggd(1)/gridggd, means that the grid is located in the wall IDS, occurrence 0, with relative path descriptionggd(1)/gridggd, using Fortran index convention (here : first index of the array)

  • Data Type: STR_0D

ferritic.grid_ggd.space[:].coordinates_type

Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

ferritic.grid_ggd.space[:].geometry_type.description

Verbose description

  • Data Type: STR_0D

ferritic.grid_ggd.space[:].geometry_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ferritic.grid_ggd.space[:].geometry_type.name

Short string identifier

  • Data Type: STR_0D

ferritic.grid_ggd.space[:].identifier.description

Verbose description

  • Data Type: STR_0D

ferritic.grid_ggd.space[:].identifier.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ferritic.grid_ggd.space[:].identifier.name

Short string identifier

  • Data Type: STR_0D

ferritic.grid_ggd.space[:].objects_per_dimension[:].geometry_content.description

Verbose description

  • Data Type: STR_0D

ferritic.grid_ggd.space[:].objects_per_dimension[:].geometry_content.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ferritic.grid_ggd.space[:].objects_per_dimension[:].geometry_content.name

Short string identifier

  • Data Type: STR_0D

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].boundary[:].index

Index of this (n-1)-dimensional boundary object

  • Data Type: INT_0D

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].boundary[:].neighbours

List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object may have multiple neighbours on a boundary

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].geometry

Geometry data associated with the object. Its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].geometry_σ

error of ferritic.gridggd.space[:].objectsper_dimension[:].object[:].geometry

  • Units: mixed
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].geometry_2d

2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].geometry_2d_σ

error of ferritic.gridggd.space[:].objectsperdimension[:].object[:].geometry2d

  • Units: mixed
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "1...N"]

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].measure

Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)

  • Units: m^dimension
  • Data Type: FLT_0D

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].measure_σ

error of ferritic.gridggd.space[:].objectsper_dimension[:].object[:].measure

  • Units: m^dimension
  • Data Type: FLT_0D

ferritic.grid_ggd.space[:].objects_per_dimension[:].object[:].nodes

List of nodes forming this object (indices to objectsperdimension(1)%object(:) in Fortran notation)

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

ferritic.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

ferritic.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

ferritic.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

ferritic.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

ferritic.ids_properties.occurrence

N/A

  • Data Type: INT_0D

ferritic.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

ferritic.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

ferritic.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

ferritic.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

ferritic.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

ferritic.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

ferritic.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

ferritic.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

ferritic.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

ferritic.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

ferritic.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

ferritic.object[:].axisymmetric[:].annulus.r

Centre major radius

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].annulus.r_σ

error of ferritic.object[:].axisymmetric[:].annulus.r

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].annulus.radius_inner

Inner radius

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].annulus.radius_inner_σ

error of ferritic.object[:].axisymmetric[:].annulus.radius_inner

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].annulus.radius_outer

Outer radius

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].annulus.radius_outer_σ

error of ferritic.object[:].axisymmetric[:].annulus.radius_outer

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].annulus.z

Centre height

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].annulus.z_σ

error of ferritic.object[:].axisymmetric[:].annulus.z

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].arcs_of_circle.curvature_radii

Curvature radius of each arc of circle

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].axisymmetric[:].arcs_of_circle.r"]

ferritic.object[:].axisymmetric[:].arcs_of_circle.curvature_radii_σ

error of ferritic.object[:].axisymmetric[:].arcsofcircle.curvature_radii

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].axisymmetric[:].arcs_of_circle.r"]

ferritic.object[:].axisymmetric[:].arcs_of_circle.r

Major radii of the start point of each arc of circle

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.object[:].axisymmetric[:].arcs_of_circle.r_σ

error of ferritic.object[:].axisymmetric[:].arcsofcircle.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.object[:].axisymmetric[:].arcs_of_circle.z

Height of the start point of each arc of circle

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].axisymmetric[:].arcs_of_circle.r"]

ferritic.object[:].axisymmetric[:].arcs_of_circle.z_σ

error of ferritic.object[:].axisymmetric[:].arcsofcircle.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].axisymmetric[:].arcs_of_circle.r"]

ferritic.object[:].axisymmetric[:].geometry_type

Type used to describe the element shape (1:'outline', 2:'rectangle', 3:'oblique', 4:'arcs of circle, 5: 'annulus', 6 : 'thick line')

  • Data Type: INT_0D

ferritic.object[:].axisymmetric[:].oblique.alpha

Inclination of first angle measured counter-clockwise from horizontal outwardly directed radial vector (grad R).

  • Units: rad
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.alpha_σ

error of ferritic.object[:].axisymmetric[:].oblique.alpha

  • Units: rad
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.beta

Inclination of second angle measured counter-clockwise from vertically upwards directed vector (grad Z). If both alpha and beta are zero (rectangle) then the simpler rectangular elements description should be used.

  • Units: rad
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.beta_σ

error of ferritic.object[:].axisymmetric[:].oblique.beta

  • Units: rad
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.length_alpha

Length of the parallelogram side inclined with angle alpha with respect to the major radius axis

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.length_alpha_σ

error of ferritic.object[:].axisymmetric[:].oblique.length_alpha

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.length_beta

Length of the parallelogram side inclined with angle beta with respect to the height axis

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.length_beta_σ

error of ferritic.object[:].axisymmetric[:].oblique.length_beta

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.r

Major radius of the reference point (from which the alpha and beta angles are defined, marked by a + on the diagram)

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.r_σ

error of ferritic.object[:].axisymmetric[:].oblique.r

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.z

Height of the reference point (from which the alpha and beta angles are defined, marked by a + on the diagram)

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].oblique.z_σ

error of ferritic.object[:].axisymmetric[:].oblique.z

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.object[:].axisymmetric[:].outline.r_σ

error of ferritic.object[:].axisymmetric[:].outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.object[:].axisymmetric[:].outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].axisymmetric[:].outline.r"]

ferritic.object[:].axisymmetric[:].outline.z_σ

error of ferritic.object[:].axisymmetric[:].outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].axisymmetric[:].outline.r"]

ferritic.object[:].axisymmetric[:].rectangle.height

Vertical full height

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].rectangle.height_σ

error of ferritic.object[:].axisymmetric[:].rectangle.height

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].rectangle.r

Geometric centre R

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].rectangle.r_σ

error of ferritic.object[:].axisymmetric[:].rectangle.r

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].rectangle.width

Horizontal full width

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].rectangle.width_σ

error of ferritic.object[:].axisymmetric[:].rectangle.width

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].rectangle.z

Geometric centre Z

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].rectangle.z_σ

error of ferritic.object[:].axisymmetric[:].rectangle.z

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.first_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.first_point.r_σ

error of ferritic.object[:].axisymmetric[:].thickline.firstpoint.r

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.first_point.z

Height

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.first_point.z_σ

error of ferritic.object[:].axisymmetric[:].thickline.firstpoint.z

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.second_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.second_point.r_σ

error of ferritic.object[:].axisymmetric[:].thickline.secondpoint.r

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.second_point.z

Height

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.second_point.z_σ

error of ferritic.object[:].axisymmetric[:].thickline.secondpoint.z

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.thickness

Thickness

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].axisymmetric[:].thick_line.thickness_σ

error of ferritic.object[:].axisymmetric[:].thick_line.thickness

  • Units: m
  • Data Type: FLT_0D

ferritic.object[:].centroid.x

List of X coordinates

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.object[:].centroid.x_σ

error of ferritic.object[:].centroid.x

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.object[:].centroid.y

List of Y coordinates

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].centroid.y_σ

error of ferritic.object[:].centroid.y

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].centroid.z

List of Z coordinates

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].centroid.z_σ

error of ferritic.object[:].centroid.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].ggd_object_index

Index of GGD volumic object corresponding to each element. Refers to the array /gridggd/space(1)/objectsper_dimension(4)/object

  • Data Type: INT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].permeability_table_index

Index of permeability table to be used for each element. If not allocated or if an element is equal to EMPTYINT, use the sibling saturated relative permeability instead ../relativepermeability, for that element

  • Data Type: INT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].saturated_relative_permeability

Saturated relative magnetic permeability of each element

  • Units: H.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].saturated_relative_permeability_σ

error of ferritic.object[:].saturatedrelativepermeability

  • Units: H.m^-1
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].b_field_r

R component of the magnetic field at each centroid

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].b_field_r_σ

error of ferritic.object[:].timeslice[:].bfield_r

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].b_field_tor

Toroidal component of the magnetic field at each centroid

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].b_field_tor_σ

error of ferritic.object[:].timeslice[:].bfield_tor

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].b_field_z

Z component of the magnetic field at each centroid

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].b_field_z_σ

error of ferritic.object[:].timeslice[:].bfield_z

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].magnetic_moment_r

R component of the magnetic moment of each element

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].magnetic_moment_r_σ

error of ferritic.object[:].timeslice[:].magneticmoment_r

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].magnetic_moment_tor

Toroidal component of the magnetic moment of each element

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].magnetic_moment_tor_σ

error of ferritic.object[:].timeslice[:].magneticmoment_tor

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].magnetic_moment_z

Z component of the magnetic moment of each element

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].magnetic_moment_z_σ

error of ferritic.object[:].timeslice[:].magneticmoment_z

  • Units: A.m^-2
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].time_slice[:].time

Time

  • Units: s
  • Data Type: FLT_0D

ferritic.object[:].volume

Volume of each element of this object

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.object[:].volume_σ

error of ferritic.object[:].volume

  • Units: m^3
  • Data Type: FLT_1D
  • Coordinates: ["ferritic.object[:].centroid.x"]

ferritic.permeability_table[:].b_field

Array of magnetic field values, for each of which the relative permeability is given

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.permeability_table[:].b_field_σ

error of ferritic.permeabilitytable[:].bfield

  • Units: T
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

ferritic.permeability_table[:].description

Description of this table

  • Data Type: STR_0D

ferritic.permeability_table[:].name

Name of this table

  • Data Type: STR_0D

ferritic.permeability_table[:].relative_permeability

Relative permeability as a function of the magnetic field

  • Data Type: FLT_1D
  • Coordinates: ["ferritic.permeability_table[:].b_field"]

ferritic.permeability_table[:].relative_permeability_σ

error of ferritic.permeabilitytable[:].relativepermeability

  • Data Type: FLT_1D
  • Coordinates: ["ferritic.permeability_table[:].b_field"]

ferritic.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

focs.b_field_z.data

Data

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "focs.b_field_z.time"]

focs.b_field_z.data_σ

error of focs.bfieldz.data

  • Units: T
  • Data Type: FLT_2D
  • Coordinates: ["1...N", "focs.b_field_z.time"]

focs.b_field_z.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

focs.b_field_z.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

focs.b_field_z.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["focs.b_field_z.time"]

focs.code.commit

Unique commit reference of software

  • Data Type: STR_0D

focs.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

focs.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

focs.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

focs.code.library[:].name

Name of software

  • Data Type: STR_0D

focs.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

focs.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

focs.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

focs.code.name

Name of software generating IDS

  • Data Type: STR_0D

focs.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["focs.time"]

focs.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

focs.code.repository

URL of software repository

  • Data Type: STR_0D

focs.code.version

Unique version (tag) of software

  • Data Type: STR_0D

focs.current.data

Data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["focs.current.time"]

focs.current.data_σ

error of focs.current.data

  • Units: A
  • Data Type: FLT_1D
  • Coordinates: ["focs.current.time"]

focs.current.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

focs.current.validity

Indicator of the validity of the data for the whole acquisition period. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_0D

focs.current.validity_timed

Indicator of the validity of the data for each time slice. 0: valid from automated processing, 1: valid and certified by the diagnostic RO; - 1 means problem identified in the data processing (request verification by the diagnostic RO), -2: invalid data, should not be used (values lower than -2 have a code-specific meaning detailing the origin of their invalidity)

  • Data Type: INT_1D
  • Coordinates: ["focs.current.time"]

focs.fibre_length

Spun fibre length on the vacuum vessel

  • Units: m
  • Data Type: FLT_0D

focs.fibre_length_σ

error of focs.fibre_length

  • Units: m
  • Data Type: FLT_0D

focs.fibre_properties.beat_length

Linear beat length

  • Units: m
  • Data Type: FLT_0D

focs.fibre_properties.beat_length_σ

error of focs.fibreproperties.beatlength

  • Units: m
  • Data Type: FLT_0D

focs.fibre_properties.id

ID of the fibre, e.g. commercial reference

  • Data Type: STR_0D

focs.fibre_properties.spun

Spun period

  • Units: m
  • Data Type: FLT_0D

focs.fibre_properties.spun_σ

error of focs.fibre_properties.spun

  • Units: m
  • Data Type: FLT_0D

focs.fibre_properties.spun_initial_azimuth

Spun fibre initial azimuth

  • Units: rad
  • Data Type: FLT_0D

focs.fibre_properties.spun_initial_azimuth_σ

error of focs.fibreproperties.spuninitial_azimuth

  • Units: rad
  • Data Type: FLT_0D

focs.fibre_properties.twist

Twist period

  • Units: m
  • Data Type: FLT_0D

focs.fibre_properties.twist_σ

error of focs.fibre_properties.twist

  • Units: m
  • Data Type: FLT_0D

focs.fibre_properties.verdet_constant

Verdet constant

  • Units: rad.T^-1.m^-1
  • Data Type: FLT_0D

focs.fibre_properties.verdet_constant_σ

error of focs.fibreproperties.verdetconstant

  • Units: rad.T^-1.m^-1
  • Data Type: FLT_0D

focs.id

ID of the FOCS

  • Data Type: STR_0D

focs.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

focs.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

focs.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

focs.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

focs.ids_properties.occurrence

N/A

  • Data Type: INT_0D

focs.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

focs.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

focs.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

focs.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

focs.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

focs.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

focs.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

focs.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

focs.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

focs.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

focs.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

focs.latency

Upper bound of the delay between physical information received by the detector and data available on the real-time (RT) network.

  • Units: s
  • Data Type: FLT_0D

focs.latency_σ

error of focs.latency

  • Units: s
  • Data Type: FLT_0D

focs.name

Name of the FOCS

  • Data Type: STR_0D

focs.outline.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["focs.outline.r"]

focs.outline.phi_σ

error of focs.outline.phi

  • Units: rad
  • Data Type: FLT_1D
  • Coordinates: ["focs.outline.r"]

focs.outline.r

Major radius

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

focs.outline.r_σ

error of focs.outline.r

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

focs.outline.z

Height

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["focs.outline.r"]

focs.outline.z_σ

error of focs.outline.z

  • Units: m
  • Data Type: FLT_1D
  • Coordinates: ["focs.outline.r"]

focs.stokes_initial.s0

S0 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_initial.s0_σ

error of focs.stokes_initial.s0

  • Data Type: FLT_0D

focs.stokes_initial.s1

S1 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_initial.s1_σ

error of focs.stokes_initial.s1

  • Data Type: FLT_0D

focs.stokes_initial.s2

S2 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_initial.s2_σ

error of focs.stokes_initial.s2

  • Data Type: FLT_0D

focs.stokes_initial.s3

S3 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_initial.s3_σ

error of focs.stokes_initial.s3

  • Data Type: FLT_0D

focs.stokes_output[:].s0

S0 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_output[:].s0_σ

error of focs.stokes_output[:].s0

  • Data Type: FLT_0D

focs.stokes_output[:].s1

S1 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_output[:].s1_σ

error of focs.stokes_output[:].s1

  • Data Type: FLT_0D

focs.stokes_output[:].s2

S2 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_output[:].s2_σ

error of focs.stokes_output[:].s2

  • Data Type: FLT_0D

focs.stokes_output[:].s3

S3 component of the unit Stokes vector

  • Data Type: FLT_0D

focs.stokes_output[:].s3_σ

error of focs.stokes_output[:].s3

  • Data Type: FLT_0D

focs.stokes_output[:].time

Time

  • Units: s
  • Data Type: FLT_0D

focs.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

gas_injection.code.commit

Unique commit reference of software

  • Data Type: STR_0D

gas_injection.code.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

gas_injection.code.library[:].commit

Unique commit reference of software

  • Data Type: STR_0D

gas_injection.code.library[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

gas_injection.code.library[:].name

Name of software

  • Data Type: STR_0D

gas_injection.code.library[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

gas_injection.code.library[:].repository

URL of software repository

  • Data Type: STR_0D

gas_injection.code.library[:].version

Unique version (tag) of software

  • Data Type: STR_0D

gas_injection.code.name

Name of software generating IDS

  • Data Type: STR_0D

gas_injection.code.output_flag

Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.

  • Data Type: INT_1D
  • Coordinates: ["gas_injection.time"]

gas_injection.code.parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

gas_injection.code.repository

URL of software repository

  • Data Type: STR_0D

gas_injection.code.version

Unique version (tag) of software

  • Data Type: STR_0D

gas_injection.ids_properties.comment

Any comment describing the content of this IDS

  • Data Type: STR_0D

gas_injection.ids_properties.creation_date

Date at which this data has been produced

  • Data Type: STR_0D

gas_injection.ids_properties.homogeneous_time

This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2

  • Data Type: INT_0D

gas_injection.ids_properties.name

User-defined name for this IDS occurrence

  • Data Type: STR_0D

gas_injection.ids_properties.occurrence

N/A

  • Data Type: INT_0D

gas_injection.ids_properties.occurrence_type.description

Verbose description

  • Data Type: STR_0D

gas_injection.ids_properties.occurrence_type.index

Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.

  • Data Type: INT_0D

gas_injection.ids_properties.occurrence_type.name

Short string identifier

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_get.commit

Unique commit reference of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_get.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_get.name

Name of software used

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_get.repository

URL of software repository

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_get.version

Unique version (tag) of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_put.commit

Unique commit reference of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_put.description

Short description of the software (type, purpose)

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_put.name

Name of software used

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_put.repository

URL of software repository

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.infrastructure_put.version

Unique version (tag) of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].get_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].get_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].get_operation[:].name

Name of software used

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].get_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].get_operation[:].repository

URL of software repository

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].get_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].put_operation[:].commit

Unique commit reference of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].put_operation[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].put_operation[:].name

Name of software used

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].put_operation[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].put_operation[:].repository

URL of software repository

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].put_operation[:].version

Unique version (tag) of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].readback[:].commit

Unique commit reference of software

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].readback[:].description

Short description of the software (type, purpose)

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].readback[:].name

Name of software used

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].readback[:].parameters

List of the code specific parameters in XML format

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].readback[:].repository

URL of software repository

  • Data Type: STR_0D

gas_injection.ids_properties.plugins.node[:].readback[:].version

Unique version (tag) of software

  • Data Type: STR_0D

gas_injection.ids_properties.provenance.node[:].path

Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.

  • Data Type: STR_0D

gas_injection.ids_properties.provenance.node[:].sources

List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.

  • Data Type: STR_1D
  • Coordinates: ["1...N"]

gas_injection.ids_properties.provider

Name of the person in charge of producing this data

  • Data Type: STR_0D

gas_injection.ids_properties.version_put.access_layer

Version of Access Layer used to PUT this IDS

  • Data Type: STR_0D

gas_injection.ids_properties.version_put.access_layer_language

Programming language of the Access Layer high level API used to PUT this IDS

  • Data Type: STR_0D

gas_injection.ids_properties.version_put.data_dictionary

Version of Data Dictionary used to PUT this IDS

  • Data Type: STR_0D

gas_injection.latency

Upper bound of the delay between input command received from the RT network and actuator starting to react. Applies globally to the system described by this IDS unless specific latencies (e.g. channel-specific or antenna-specific) are provided at a deeper level in the IDS structure.

  • Units: s
  • Data Type: FLT_0D

gas_injection.latency_σ

error of gas_injection.latency

  • Units: s
  • Data Type: FLT_0D

gas_injection.pipe[:].exit_position.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

gas_injection.pipe[:].exit_position.phi_σ

error of gasinjection.pipe[:].exitposition.phi

  • Units: rad
  • Data Type: FLT_0D

gas_injection.pipe[:].exit_position.r

Major radius

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].exit_position.r_σ

error of gasinjection.pipe[:].exitposition.r

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].exit_position.z

Height

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].exit_position.z_σ

error of gasinjection.pipe[:].exitposition.z

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].flow_rate.data

Data

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["gas_injection.pipe[:].flow_rate.time"]

gas_injection.pipe[:].flow_rate.data_σ

error of gasinjection.pipe[:].flowrate.data

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["gas_injection.pipe[:].flow_rate.time"]

gas_injection.pipe[:].flow_rate.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

gas_injection.pipe[:].identifier

ID of the injection pipe

  • Data Type: STR_0D

gas_injection.pipe[:].length

Pipe length

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].length_σ

error of gas_injection.pipe[:].length

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].name

Name of the injection pipe

  • Data Type: STR_0D

gas_injection.pipe[:].second_point.phi

Toroidal angle (oriented counter-clockwise when viewing from above)

  • Units: rad
  • Data Type: FLT_0D

gas_injection.pipe[:].second_point.phi_σ

error of gasinjection.pipe[:].secondpoint.phi

  • Units: rad
  • Data Type: FLT_0D

gas_injection.pipe[:].second_point.r

Major radius

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].second_point.r_σ

error of gasinjection.pipe[:].secondpoint.r

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].second_point.z

Height

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].second_point.z_σ

error of gasinjection.pipe[:].secondpoint.z

  • Units: m
  • Data Type: FLT_0D

gas_injection.pipe[:].species[:].element[:].a

Mass of atom

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

gas_injection.pipe[:].species[:].element[:].a_σ

error of gas_injection.pipe[:].species[:].element[:].a

  • Units: Atomic Mass Unit
  • Data Type: FLT_0D

gas_injection.pipe[:].species[:].element[:].atoms_n

Number of atoms of this element in the molecule

  • Data Type: INT_0D

gas_injection.pipe[:].species[:].element[:].z_n

Nuclear charge

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

gas_injection.pipe[:].species[:].element[:].z_n_σ

error of gasinjection.pipe[:].species[:].element[:].zn

  • Units: Elementary Charge Unit
  • Data Type: FLT_0D

gas_injection.pipe[:].species[:].fraction

Relative fraction of this species (in molecules) in the gas mixture

  • Data Type: FLT_0D

gas_injection.pipe[:].species[:].fraction_σ

error of gas_injection.pipe[:].species[:].fraction

  • Data Type: FLT_0D

gas_injection.pipe[:].species[:].label

String identifying neutral (e.g. H, D, T, He, C, ...)

  • Data Type: STR_0D

gas_injection.pipe[:].valve_indices

Indices (from the ../../valve array of structure) of the valve(s) that are feeding this pipe

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

gas_injection.time

Generic time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

gas_injection.valve[:].electron_rate.data

Data

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["gas_injection.valve[:].electron_rate.time"]

gas_injection.valve[:].electron_rate.data_σ

error of gasinjection.valve[:].electronrate.data

  • Units: s^-1
  • Data Type: FLT_1D
  • Coordinates: ["gas_injection.valve[:].electron_rate.time"]

gas_injection.valve[:].electron_rate.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

gas_injection.valve[:].flow_rate.data

Data

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["gas_injection.valve[:].flow_rate.time"]

gas_injection.valve[:].flow_rate.data_σ

error of gasinjection.valve[:].flowrate.data

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_1D
  • Coordinates: ["gas_injection.valve[:].flow_rate.time"]

gas_injection.valve[:].flow_rate.time

Time

  • Units: s
  • Data Type: FLT_1D
  • Coordinates: ["1...N"]

gas_injection.valve[:].flow_rate_max

Maximum flow rate of the valve

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_0D

gas_injection.valve[:].flow_rate_max_σ

error of gasinjection.valve[:].flowrate_max

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_0D

gas_injection.valve[:].flow_rate_min

Minimum flow rate of the valve

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_0D

gas_injection.valve[:].flow_rate_min_σ

error of gasinjection.valve[:].flowrate_min

  • Units: Pa.m^3.s^-1
  • Data Type: FLT_0D

gas_injection.valve[:].identifier

ID of the valve

  • Data Type: STR_0D

gas_injection.valve[:].name

Name of the valve

  • Data Type: STR_0D

gas_injection.valve[:].pipe_indices

Indices (from the ../../pipe array of structure) of the pipe(s) that are fed by this valve

  • Data Type: INT_1D
  • Coordinates: ["1...N"]

gas_injection.valve[:].response_curve.flow_rate

Flow rate at the exit of the valve

  • Units: Pa.m^3.s^-1