Mass of atom

• Units: Atomic Mass Unit
• Data Type: FLT_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Name of software generating IDS

• Data Type: STR_0D

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"]

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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"]

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

• Data Type: INT_0D

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

• Data Type: STR_0D

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

• Data Type: INT_0D

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

• Data Type: INT_0D

Units of coordinate (e.g. eV)

• Data Type: STR_0D

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"]

Coordinate values

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

Any comment describing the content of this IDS

• Data Type: STR_0D

Date at which this data has been produced

• Data Type: STR_0D

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

User-defined name for this IDS occurrence

• Data Type: STR_0D

N/A

• Data Type: INT_0D

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

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"]

Name of the person in charge of producing this data

• Data Type: STR_0D

Version of Access Layer used to PUT this IDS

• Data Type: STR_0D

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

• Data Type: STR_0D

Version of Data Dictionary used to PUT this IDS

• Data Type: STR_0D

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

• Data Type: STR_0D

0D table describing the process data

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

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"]

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"]

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"]

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"]

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"]

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"]

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

• Units: Elementary Charge Unit
• Data Type: FLT_0D

Minimum Z of the charge state bundle

• Units: Elementary Charge Unit
• Data Type: FLT_0D

Reference to publication(s)

• Data Type: STR_0D

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

• Data Type: INT_0D

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

• Data Type: STR_0D

Charge number of the participant

• Data Type: FLT_0D

Mass of atom

• Units: Atomic Mass Unit
• Data Type: FLT_0D

Number of atoms of this element in the molecule

• Data Type: INT_0D

Nuclear charge

• Units: Elementary Charge Unit
• Data Type: FLT_0D

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

• Data Type: STR_0D

Mass of the participant

• Units: Atomic Mass Unit
• Data Type: FLT_0D

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"]

Label identifying in text form the metastable

• Data Type: STR_0D

Multiplicity in the reaction

• Data Type: FLT_0D

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

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Name of the person in charge of producing this data

• Data Type: STR_0D

Charge number of the participant

• Data Type: FLT_0D

Mass of atom

• Units: Atomic Mass Unit
• Data Type: FLT_0D

Number of atoms of this element in the molecule

• Data Type: INT_0D

Nuclear charge

• Units: Elementary Charge Unit
• Data Type: FLT_0D

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

• Data Type: STR_0D

Mass of the participant

• Units: Atomic Mass Unit
• Data Type: FLT_0D

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"]

Label identifying in text form the metastable

• Data Type: STR_0D

Multiplicity in the reaction

• Data Type: FLT_0D

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

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

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

• Data Type: STR_0D

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

• Data Type: INT_0D

Units of the process result

• Data Type: STR_0D

Filename or subroutine name used to provide this data

• Data Type: STR_0D

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

Description of this data entry

• Data Type: STR_0D

Which run number is the active run number for this version

• Data Type: INT_0D

Shot number = Mass*1000+Nuclear_charge

• Data Type: INT_0D

Date of this release

• Data Type: STR_0D

Description of this release

• Data Type: STR_0D

Generic time

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

Nuclear charge

• Units: Elementary Charge Unit
• Data Type: FLT_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Name of software generating IDS

• Data Type: STR_0D

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"]

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

• Data Type: STR_0D

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

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

Any comment describing the content of this IDS

• Data Type: STR_0D

Date at which this data has been produced

• Data Type: STR_0D

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

User-defined name for this IDS occurrence

• Data Type: STR_0D

N/A

• Data Type: INT_0D

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

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"]

Name of the person in charge of producing this data

• Data Type: STR_0D

Version of Access Layer used to PUT this IDS

• Data Type: STR_0D

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

• Data Type: STR_0D

Version of Data Dictionary used to PUT this IDS

• Data Type: STR_0D

Generic time

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

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"]

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"]

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"]

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"]

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"]

Toroidal mode number

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

Major radius

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

Height

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

Major radius

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

Height

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

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

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

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"]

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"]

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"]

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"]

Major radius

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

Height

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

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"]

Time

• Units: s
• Data Type: FLT_0D

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

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

Net electric power

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

Index of the system, used to generate functions

• Data Type: INT_0D

Name of the system

• Data Type: STR_0D

Electrical power used to operate the system

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

Index of the system, used to generate functions

• Data Type: INT_0D

Name of the system

• Data Type: STR_0D

Electrical power used to operate the system

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

Total

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

Conversion efficiency of thermal to electric power of the steam cycle

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

The heat flow towards the breeder.

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

The heat flow towards the divertor

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

The heat flow towards the wall.

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

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

• Data Type: STR_0D

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"]

Index of the system, used to generate functions

• Data Type: INT_0D

Name of the component

• Data Type: STR_0D

Mass Flow Rate of the fluid

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

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

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

Name of the port

• Data Type: STR_0D

Fluid pressure

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

Fluid Temperature

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

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

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

Index of the system, used to generate functions

• Data Type: INT_0D

Name of the system

• Data Type: STR_0D

The total heat flow being rejected from the thermal plant

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

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

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

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

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

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"]

Generic time

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Name of software generating IDS

• Data Type: STR_0D

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"]

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Coefficient used for converting raw signal into absolute pressure

• Units: Pa
• Data Type: FLT_0D

Name of the gauge

• Data Type: STR_0D

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

Data

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

Time

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

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Any comment describing the content of this IDS

• Data Type: STR_0D

Date at which this data has been produced

• Data Type: STR_0D

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

User-defined name for this IDS occurrence

• Data Type: STR_0D

N/A

• Data Type: INT_0D

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

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"]

Name of the person in charge of producing this data

• Data Type: STR_0D

Version of Access Layer used to PUT this IDS

• Data Type: STR_0D

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

• Data Type: STR_0D

Version of Data Dictionary used to PUT this IDS

• Data Type: STR_0D

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

Generic time

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

Material of the layer

• Data Type: STR_0D

Thickness of layer evaluated at the midplane

• Units: m
• Data Type: FLT_0D

Name of the blanket layer

• Data Type: STR_0D

Name of the blanket module

• Data Type: STR_0D

Maximum neutron flux escaping from the back of the blanket module

• Units: W/m^2
• Data Type: FLT_0D

Maximum neutron flux at the first wall

• Units: W/m^2
• Data Type: FLT_0D

Total incident neutron power on the blanket module

• Units: W
• Data Type: FLT_0D

Total incident radiative power on the blanket module

• Units: W
• Data Type: FLT_0D

Total thermal power that is extracted from the blanket module

• Units: W
• Data Type: FLT_0D

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

• Units: W
• Data Type: FLT_0D

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

• Units: W
• Data Type: FLT_0D

Time

• Units: s
• Data Type: FLT_0D

Number of tritium atoms for each incident neutron (TBR)

• Data Type: FLT_0D

Generic time

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

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

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

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

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

Positions along x1 axis

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

Positions along x2 axis

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

Radius of the circle, used only if geometry_type = 2

• Units: m
• Data Type: FLT_0D

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

• Units: m^2
• Data Type: FLT_0D

Component along X axis

• Units: m
• Data Type: FLT_0D

Component along Y axis

• Units: m
• Data Type: FLT_0D

Component along Z axis

• Units: m
• Data Type: FLT_0D

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

• Units: m
• Data Type: FLT_0D

Component along X axis

• Units: m
• Data Type: FLT_0D

Component along Y axis

• Units: m
• Data Type: FLT_0D

Component along Z axis

• Units: m
• Data Type: FLT_0D

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

• Units: m
• Data Type: FLT_0D

Component along X axis

• Units: m
• Data Type: FLT_0D

Component along Y axis

• Units: m
• Data Type: FLT_0D

Component along Z axis

• Units: m
• Data Type: FLT_0D

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

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

Positions along x1 axis

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

Positions along x2 axis

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

Radius of the circle, used only if geometry_type = 2

• Units: m
• Data Type: FLT_0D

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

• Units: m^2
• Data Type: FLT_0D

Component along X axis

• Units: m
• Data Type: FLT_0D

Component along Y axis

• Units: m
• Data Type: FLT_0D

Component along Z axis

• Units: m
• Data Type: FLT_0D

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

• Units: m
• Data Type: FLT_0D

Component along X axis

• Units: m
• Data Type: FLT_0D

Component along Y axis

• Units: m
• Data Type: FLT_0D

Component along Z axis

• Units: m
• Data Type: FLT_0D

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

• Units: m
• Data Type: FLT_0D

Component along X axis

• Units: m
• Data Type: FLT_0D

Component along Y axis

• Units: m
• Data Type: FLT_0D

Component along Z axis

• Units: m
• Data Type: FLT_0D

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

• Units: m^2.sr
• Data Type: FLT_0D

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

ID of the channel

• Data Type: STR_0D

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

Name of the channel

• Data Type: STR_0D

Data

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

Time

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

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

• Data Type: INT_0D

Data

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

Time

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Name of software generating IDS

• Data Type: STR_0D

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"]

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

First dimension values

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

Second dimension values

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

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"]

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Any comment describing the content of this IDS

• Data Type: STR_0D

Date at which this data has been produced

• Data Type: STR_0D

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

User-defined name for this IDS occurrence

• Data Type: STR_0D

N/A

• Data Type: INT_0D

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

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"]

Name of the person in charge of producing this data

• Data Type: STR_0D

Version of Access Layer used to PUT this IDS

• Data Type: STR_0D

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

• Data Type: STR_0D

Version of Data Dictionary used to PUT this IDS

• Data Type: STR_0D

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

Data

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

Time

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

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

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

Total radiated power reconstructed from bolometry data

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

Validity flag related to the radiated power reconstructions

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

Generic time

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

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"]

Lower bound of the filter wavelength range

• Units: m
• Data Type: FLT_0D

Upper bound of the filter wavelength range

• Units: m
• Data Type: FLT_0D

Array of wavelength values

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

Data

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

Time

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

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

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

• Units: rad
• Data Type: FLT_0D

Major radius

• Units: m
• Data Type: FLT_0D

Height

• Units: m
• Data Type: FLT_0D

Name of the channel

• Data Type: STR_0D

Data

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

Time

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

Data

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

Time

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

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

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"]

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Name of software generating IDS

• Data Type: STR_0D

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"]

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Any comment describing the content of this IDS

• Data Type: STR_0D

Date at which this data has been produced

• Data Type: STR_0D

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

User-defined name for this IDS occurrence

• Data Type: STR_0D

N/A

• Data Type: INT_0D

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

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"]

Name of the person in charge of producing this data

• Data Type: STR_0D

Version of Access Layer used to PUT this IDS

• Data Type: STR_0D

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

• Data Type: STR_0D

Version of Data Dictionary used to PUT this IDS

• Data Type: STR_0D

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

Generic time

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

1 if a lower divertor is installed

• Data Type: INT_0D

1 if a upper divertor is installed

• Data Type: INT_0D

Total flux required for the plasma flattop

• Units: Wb
• Data Type: FLT_0D

Contribution of vertical field from PF coils to flux swing

• Units: Wb
• Data Type: FLT_0D

Total flux required for the plasma rampup

• Units: Wb
• Data Type: FLT_0D

Cross sectional area of the layer

• Units: m^2
• Data Type: FLT_0D

End radius of the layer

• Units: m
• Data Type: FLT_0D

Integer to identify the same layer on the high-field-side and low-field-side

• Data Type: INT_0D

Material of the layer

• Data Type: STR_0D

Name of the layer

• Data Type: STR_0D

Major radius

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

Height

• Units: m
• Data Type: FLT_1D
• Coordinates: ["build.layer[:].outline.r"]

Integer to identify the physical shape of the layer

• Data Type: INT_0D

List of the shape specific parameters for given shape type

• Data Type: FLT_1D

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

Start radius of the layer

• Units: m
• Data Type: FLT_0D

Radial thickness of layer

• Units: m
• Data Type: FLT_0D

Layer type code

Volume of the layer

• Units: m^3
• Data Type: FLT_0D

Volume of the layer without structures

• Units: m^3
• Data Type: FLT_0D

Critical magnetic field density to quench superconducting OH

• Units: T
• Data Type: FLT_0D

Critical current density to quench superconducting OH

• Units: A/m^2
• Data Type: FLT_0D

Estimated duration of the flattop

• Units: s
• Data Type: FLT_0D

Maximum magnetic field in the OH solenoid, as required to satisfy rampup and flattop flux consumption

• Units: T
• Data Type: FLT_0D

Maximum current density in the OH solenoid, as required to satisfy rampup and flattop flux consumption

• Units: A/m^2
• Data Type: FLT_0D

Fraction of maximum JxB strain over maximum total strain on the OH coils

• Data Type: FLT_0D

Fraction of stainless steel in the OH coils cross-sectional areas

• Data Type: FLT_0D

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

Material of the OH coils

• Data Type: STR_0D

Fraction of superconductor to copper cross-sectional areas in OH coils

• Data Type: FLT_0D

OH coils temperature

• Units: K
• Data Type: FLT_0D

Fraction of thermal expansion strain over maximum total strain on the OH coils

• Data Type: FLT_0D

Clereance that coils have from other structures

• Units: m
• Data Type: FLT_0D

Number of coils on the rail

• Data Type: INT_0D

Name of the coil rail

• Data Type: STR_0D

Distance along the rail skipping gaps

• Units: m
• Data Type: FLT_1D
• Coordinates: ["build.pf_active.rail[:].outline.r"]

Major radius

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

Height

• Units: m
• Data Type: FLT_1D
• Coordinates: ["build.pf_active.rail[:].outline.r"]

Fraction of maximum JxB strain over maximum total strain on the PF coils

• Data Type: FLT_0D

Fraction of stainless steel in the PF coils cross-sectional areas

• Data Type: FLT_0D

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

Material of the PF coils

• Data Type: STR_0D

Fraction of superconductor to copper cross-sectional areas in the PF coils

• Data Type: FLT_0D

PF coils temperature

• Units: K
• Data Type: FLT_0D

Fraction of thermal expansion strain over maximum total strain on the PF coils

• Data Type: FLT_0D

Cross sectional area of the structure

• Units: m^2
• Data Type: FLT_0D

String to identify structure

• Data Type: STR_0D

Material of the structure

• Data Type: STR_0D

Name of the structure

• Data Type: STR_0D

Major radius

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

Height

• Units: m
• Data Type: FLT_1D
• Coordinates: ["build.structure[:].outline.r"]

Toroidal position(s) of the structure

• Units: rad
• Data Type: FLT_1D

Toroidal extent of the structure

• Units: rad
• Data Type: FLT_0D

Structure type code

• Data Type: INT_0D

Volume of the structure

• Units: m^3
• Data Type: FLT_0D

Number of TF coils around the torus

• Data Type: INT_0D

Critical magnetic field to quench superconducting TF

• Units: T
• Data Type: FLT_0D

Critical current density to quench superconducting TF

• Units: A/m^2
• Data Type: FLT_0D

Maximum magnetic field evaluated at the TF high-field side

• Units: T
• Data Type: FLT_0D

Maximum current density in the TF solenoid

• Units: A/m^2
• Data Type: FLT_0D

Fraction of toroidal field ripple evaluated at the outermost radius of the plasma chamber

• Data Type: FLT_0D

Fraction of maximum JxB strain over maximum total strain on the TF coils

• Data Type: FLT_0D

Fraction of stainless steel in the TF coils cross-sectional areas

• Data Type: FLT_0D

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

Material of the TF coils

• Data Type: STR_0D

Fraction of superconductor to copper cross-sectional areas in the TF coils

• Data Type: FLT_0D

TF coils temperature

• Units: K
• Data Type: FLT_0D

Fraction of thermal expansion strain over maximum total strain on the TF coils

• Data Type: FLT_0D

Thickness of the TF coils wedge evaluated

• Units: m
• Data Type: FLT_0D

Generic time

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Name of software generating IDS

• Data Type: STR_0D

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"]

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

ID of the loop

• Data Type: STR_0D

Data

• Units: kg.s^-1
• Data Type: FLT_1D
• Coordinates: ["calorimetry.cooling_loop[:].mass_flow.time"]

Time

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

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

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"]

Name of the loop

• Data Type: STR_0D

Data

• Units: K
• Data Type: FLT_1D
• Coordinates: ["calorimetry.cooling_loop[:].temperature_in.time"]

Time

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

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

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"]

Data

• Units: K
• Data Type: FLT_1D
• Coordinates: ["calorimetry.cooling_loop[:].temperature_out.time"]

Time

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

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

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"]

Data

• Units: J
• Data Type: FLT_1D
• Coordinates: ["calorimetry.group[:].component[:].energy_cumulated.time"]

Time

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

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

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"]

Data

• Units: J
• Data Type: FLT_0D

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

ID of the component

• Data Type: STR_0D

Data

• Units: kg.s^-1
• Data Type: FLT_1D
• Coordinates: ["calorimetry.group[:].component[:].mass_flow.time"]

Time

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

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

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"]

Name of the component

• Data Type: STR_0D

Data

• Units: W
• Data Type: FLT_1D
• Coordinates: ["calorimetry.group[:].component[:].power.time"]

Time

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

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

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"]

Data

• Units: K
• Data Type: FLT_1D
• Coordinates: ["calorimetry.group[:].component[:].temperature_in.time"]

Time

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

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

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"]

Data

• Units: K
• Data Type: FLT_1D
• Coordinates: ["calorimetry.group[:].component[:].temperature_out.time"]

Time

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

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

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"]

Data

• Units: s
• Data Type: FLT_1D
• Coordinates: ["calorimetry.group[:].component[:].transit_time.time"]

Time

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

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

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"]

ID of the group

• Data Type: STR_0D

Name of the group

• Data Type: STR_0D

Any comment describing the content of this IDS

• Data Type: STR_0D

Date at which this data has been produced

• Data Type: STR_0D

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

User-defined name for this IDS occurrence

• Data Type: STR_0D

N/A

• Data Type: INT_0D

Verbose description

• Data Type: STR_0D

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

• Data Type: INT_0D

Short string identifier

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software used

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D

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

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"]

Name of the person in charge of producing this data

• Data Type: STR_0D

Version of Access Layer used to PUT this IDS

• Data Type: STR_0D

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

• Data Type: STR_0D

Version of Data Dictionary used to PUT this IDS

• Data Type: STR_0D

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

Generic time

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

Luminance to temperature conversion table

• Data Type: INT_2D
• Coordinates: ["1...N", "1...2"]

Temperature of the optical components (digital levels)

• Data Type: INT_2D
• Coordinates: ["1...N", "1...N"]

Transmission of the optical barrel

• Data Type: INT_2D
• Coordinates: ["1...N", "1...N"]

Transmission of the mirror

• Data Type: INT_2D
• Coordinates: ["1...N", "1...N"]

Transmission of the window

• Data Type: INT_2D
• Coordinates: ["1...N", "1...N"]

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Unique commit reference of software

• Data Type: STR_0D

Short description of the software (type, purpose)

• Data Type: STR_0D

Name of software

• Data Type: STR_0D

List of the code specific parameters in XML format

• Data Type: STR_0D

URL of software repository

• Data Type: STR_0D

Unique version (tag) of software

• Data Type: STR_0D