magneticsΒΆ

PathDimensionsTypeUnitsDescription

magnetics

Magnetic diagnostics for equilibrium identification and plasma shape control.

magnetics.b_field_pol_probe

[1...N]

STRUCT_ARRAY

Poloidal field probes

magnetics.b_field_pol_probe[:].area

FLT_0D (uncertain)

m^2

Area of each turn of the sensor; becomes effective area when multiplied by the turns

magnetics.b_field_pol_probe[:].bandwidth_3db

[1...2]

FLT_1D (uncertain)

Hz

3dB bandwith (first index : lower frequency bound, second index : upper frequency bound)

magnetics.b_field_pol_probe[:].field

STRUCTURE

T

Magnetic field component in direction of sensor normal axis (n) averaged over sensor volume defined by area and length, where n = cos(poloidal_angle)*cos(toroidal_angle)*grad(R) - sin(poloidal_angle)*grad(Z) + cos(poloidal_angle)*sin(toroidal_angle)*grad(Phi)/norm(grad(Phi))

magnetics.b_field_pol_probe[:].field.data

[magnetics.b_field_pol_probe[:].field.time]

FLT_1D (uncertain)

T

Data

magnetics.b_field_pol_probe[:].field.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.b_field_pol_probe[:].field.validity

INT_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)

magnetics.b_field_pol_probe[:].field.validity_timed

[magnetics.b_field_pol_probe[:].field.time]

INT_1D

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)

magnetics.b_field_pol_probe[:].identifier

STR_0D

ID of the probe

magnetics.b_field_pol_probe[:].indices_differential

[1...2]

INT_1D

Indices (from the bpol_probe array of structure) of the two probes used to build the field difference field(second index) - field(first index). Use only if ../type/index = 6, leave empty otherwise

magnetics.b_field_pol_probe[:].length

FLT_0D (uncertain)

m

Length of the sensor along it's normal vector (n)

magnetics.b_field_pol_probe[:].name

STR_0D

Name of the probe

magnetics.b_field_pol_probe[:].non_linear_response

STRUCTURE

Non-linear response of the probe (typically in case of a Hall probe)

magnetics.b_field_pol_probe[:].non_linear_response.b_field_linear

[1...N]

FLT_1D (uncertain)

T

Array of magnetic field values (corresponding to the assumption of a linear relation between magnetic field and probe coil current), for each of which the probe non-linear response is given in ../b_field_non_linear

magnetics.b_field_pol_probe[:].non_linear_response.b_field_non_linear

[magnetics.b_field_pol_probe[:].non_linear_response.b_field_linear]

FLT_1D (uncertain)

T

Magnetic field value taking into account the non-linear response of the probe

magnetics.b_field_pol_probe[:].poloidal_angle

FLT_0D (uncertain)

rad

Angle of the sensor normal vector (vector parallel to the the axis of the coil, n on the diagram) with respect to horizontal plane (clockwise theta-like angle). Zero if sensor normal vector fully in the horizontal plane and oriented towards increasing major radius. Values in [0 , 2Pi]

magnetics.b_field_pol_probe[:].position

STRUCTURE

R, Z, Phi position of the coil centre

magnetics.b_field_pol_probe[:].position.phi

FLT_0D (uncertain)

rad

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

magnetics.b_field_pol_probe[:].position.r

FLT_0D (uncertain)

m

Major radius

magnetics.b_field_pol_probe[:].position.z

FLT_0D (uncertain)

m

Height

magnetics.b_field_pol_probe[:].toroidal_angle

FLT_0D (uncertain)

rad

Angle of the projection of the sensor normal vector (n) in the horizontal plane with the increasing R direction (i.e. grad(R)) (angle is counter-clockwise from above as in cocos=11 phi-like angle). Values should be taken modulo pi with values within (-pi/2,pi/2]. Zero if projected sensor normal is parallel to grad(R), pi/2 if it is parallel to grad(phi).

magnetics.b_field_pol_probe[:].turns

INT_0D

Turns in the coil, including sign

magnetics.b_field_pol_probe[:].type

STRUCTURE

Probe type
1) position : Position measurement probe
2) mirnov : Mirnov probe
3) hall : Hall probe
4) flux_gate : Flux gate probe
5) faraday_fiber : Faraday fiber
6) differential : Differential probe

magnetics.b_field_pol_probe[:].type.description

STR_0D

Verbose description

magnetics.b_field_pol_probe[:].type.index

INT_0D

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

magnetics.b_field_pol_probe[:].type.name

STR_0D

Short string identifier

magnetics.b_field_pol_probe[:].voltage

STRUCTURE

V

Voltage on the coil terminals

magnetics.b_field_pol_probe[:].voltage.data

[magnetics.b_field_pol_probe[:].voltage.time]

FLT_1D (uncertain)

V

Data

magnetics.b_field_pol_probe[:].voltage.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.b_field_pol_probe[:].voltage.validity

INT_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)

magnetics.b_field_pol_probe[:].voltage.validity_timed

[magnetics.b_field_pol_probe[:].voltage.time]

INT_1D

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)

magnetics.b_field_tor_probe

[1...N]

STRUCT_ARRAY

Toroidal field probes

magnetics.b_field_tor_probe[:].area

FLT_0D (uncertain)

m^2

Area of each turn of the sensor; becomes effective area when multiplied by the turns

magnetics.b_field_tor_probe[:].bandwidth_3db

[1...2]

FLT_1D (uncertain)

Hz

3dB bandwith (first index : lower frequency bound, second index : upper frequency bound)

magnetics.b_field_tor_probe[:].field

STRUCTURE

T

Magnetic field component in direction of sensor normal axis (n) averaged over sensor volume defined by area and length, where n = cos(poloidal_angle)*cos(toroidal_angle)*grad(R) - sin(poloidal_angle)*grad(Z) + cos(poloidal_angle)*sin(toroidal_angle)*grad(Phi)/norm(grad(Phi))

magnetics.b_field_tor_probe[:].field.data

[magnetics.b_field_tor_probe[:].field.time]

FLT_1D (uncertain)

T

Data

magnetics.b_field_tor_probe[:].field.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.b_field_tor_probe[:].field.validity

INT_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)

magnetics.b_field_tor_probe[:].field.validity_timed

[magnetics.b_field_tor_probe[:].field.time]

INT_1D

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)

magnetics.b_field_tor_probe[:].identifier

STR_0D

ID of the probe

magnetics.b_field_tor_probe[:].indices_differential

[1...2]

INT_1D

Indices (from the bpol_probe array of structure) of the two probes used to build the field difference field(second index) - field(first index). Use only if ../type/index = 6, leave empty otherwise

magnetics.b_field_tor_probe[:].length

FLT_0D (uncertain)

m

Length of the sensor along it's normal vector (n)

magnetics.b_field_tor_probe[:].name

STR_0D

Name of the probe

magnetics.b_field_tor_probe[:].non_linear_response

STRUCTURE

Non-linear response of the probe (typically in case of a Hall probe)

magnetics.b_field_tor_probe[:].non_linear_response.b_field_linear

[1...N]

FLT_1D (uncertain)

T

Array of magnetic field values (corresponding to the assumption of a linear relation between magnetic field and probe coil current), for each of which the probe non-linear response is given in ../b_field_non_linear

magnetics.b_field_tor_probe[:].non_linear_response.b_field_non_linear

[magnetics.b_field_tor_probe[:].non_linear_response.b_field_linear]

FLT_1D (uncertain)

T

Magnetic field value taking into account the non-linear response of the probe

magnetics.b_field_tor_probe[:].poloidal_angle

FLT_0D (uncertain)

rad

Angle of the sensor normal vector (vector parallel to the the axis of the coil, n on the diagram) with respect to horizontal plane (clockwise theta-like angle). Zero if sensor normal vector fully in the horizontal plane and oriented towards increasing major radius. Values in [0 , 2Pi]

magnetics.b_field_tor_probe[:].position

STRUCTURE

R, Z, Phi position of the coil centre

magnetics.b_field_tor_probe[:].position.phi

FLT_0D (uncertain)

rad

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

magnetics.b_field_tor_probe[:].position.r

FLT_0D (uncertain)

m

Major radius

magnetics.b_field_tor_probe[:].position.z

FLT_0D (uncertain)

m

Height

magnetics.b_field_tor_probe[:].toroidal_angle

FLT_0D (uncertain)

rad

Angle of the projection of the sensor normal vector (n) in the horizontal plane with the increasing R direction (i.e. grad(R)) (angle is counter-clockwise from above as in cocos=11 phi-like angle). Values should be taken modulo pi with values within (-pi/2,pi/2]. Zero if projected sensor normal is parallel to grad(R), pi/2 if it is parallel to grad(phi).

magnetics.b_field_tor_probe[:].turns

INT_0D

Turns in the coil, including sign

magnetics.b_field_tor_probe[:].type

STRUCTURE

Probe type
1) position : Position measurement probe
2) mirnov : Mirnov probe
3) hall : Hall probe
4) flux_gate : Flux gate probe
5) faraday_fiber : Faraday fiber
6) differential : Differential probe

magnetics.b_field_tor_probe[:].type.description

STR_0D

Verbose description

magnetics.b_field_tor_probe[:].type.index

INT_0D

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

magnetics.b_field_tor_probe[:].type.name

STR_0D

Short string identifier

magnetics.b_field_tor_probe[:].voltage

STRUCTURE

V

Voltage on the coil terminals

magnetics.b_field_tor_probe[:].voltage.data

[magnetics.b_field_tor_probe[:].voltage.time]

FLT_1D (uncertain)

V

Data

magnetics.b_field_tor_probe[:].voltage.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.b_field_tor_probe[:].voltage.validity

INT_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)

magnetics.b_field_tor_probe[:].voltage.validity_timed

[magnetics.b_field_tor_probe[:].voltage.time]

INT_1D

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)

magnetics.bpol_probe

(obsolescent)

[1...N]

STRUCT_ARRAY

Poloidal field probes

magnetics.bpol_probe[:].area

(obsolescent)

FLT_0D (uncertain)

m^2

Area of each turn of the sensor; becomes effective area when multiplied by the turns

magnetics.bpol_probe[:].bandwidth_3db

(obsolescent)

[1...2]

FLT_1D (uncertain)

Hz

3dB bandwith (first index : lower frequency bound, second index : upper frequency bound)

magnetics.bpol_probe[:].field

(obsolescent)

STRUCTURE

T

Magnetic field component in direction of sensor normal axis (n) averaged over sensor volume defined by area and length, where n = cos(poloidal_angle)*cos(toroidal_angle)*grad(R) - sin(poloidal_angle)*grad(Z) + cos(poloidal_angle)*sin(toroidal_angle)*grad(Phi)/norm(grad(Phi))

magnetics.bpol_probe[:].field.data

(obsolescent)

[magnetics.bpol_probe[:].field.time]

FLT_1D (uncertain)

T

Data

magnetics.bpol_probe[:].field.time

(obsolescent)

[1...N]

FLT_1D_TYPE

s

Time

magnetics.bpol_probe[:].field.validity

(obsolescent)

INT_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)

magnetics.bpol_probe[:].field.validity_timed

(obsolescent)

[magnetics.bpol_probe[:].field.time]

INT_1D

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)

magnetics.bpol_probe[:].identifier

(obsolescent)

STR_0D

ID of the probe

magnetics.bpol_probe[:].indices_differential

(obsolescent)

[1...2]

INT_1D

Indices (from the bpol_probe array of structure) of the two probes used to build the field difference field(second index) - field(first index). Use only if ../type/index = 6, leave empty otherwise

magnetics.bpol_probe[:].length

(obsolescent)

FLT_0D (uncertain)

m

Length of the sensor along it's normal vector (n)

magnetics.bpol_probe[:].name

(obsolescent)

STR_0D

Name of the probe

magnetics.bpol_probe[:].non_linear_response

(obsolescent)

STRUCTURE

Non-linear response of the probe (typically in case of a Hall probe)

magnetics.bpol_probe[:].non_linear_response.b_field_linear

(obsolescent)

[1...N]

FLT_1D (uncertain)

T

Array of magnetic field values (corresponding to the assumption of a linear relation between magnetic field and probe coil current), for each of which the probe non-linear response is given in ../b_field_non_linear

magnetics.bpol_probe[:].non_linear_response.b_field_non_linear

(obsolescent)

[magnetics.bpol_probe[:].non_linear_response.b_field_linear]

FLT_1D (uncertain)

T

Magnetic field value taking into account the non-linear response of the probe

magnetics.bpol_probe[:].poloidal_angle

(obsolescent)

FLT_0D (uncertain)

rad

Angle of the sensor normal vector (vector parallel to the the axis of the coil, n on the diagram) with respect to horizontal plane (clockwise theta-like angle). Zero if sensor normal vector fully in the horizontal plane and oriented towards increasing major radius. Values in [0 , 2Pi]

magnetics.bpol_probe[:].position

(obsolescent)

STRUCTURE

R, Z, Phi position of the coil centre

magnetics.bpol_probe[:].position.phi

(obsolescent)

FLT_0D (uncertain)

rad

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

magnetics.bpol_probe[:].position.r

(obsolescent)

FLT_0D (uncertain)

m

Major radius

magnetics.bpol_probe[:].position.z

(obsolescent)

FLT_0D (uncertain)

m

Height

magnetics.bpol_probe[:].toroidal_angle

(obsolescent)

FLT_0D (uncertain)

rad

Angle of the projection of the sensor normal vector (n) in the horizontal plane with the increasing R direction (i.e. grad(R)) (angle is counter-clockwise from above as in cocos=11 phi-like angle). Values should be taken modulo pi with values within (-pi/2,pi/2]. Zero if projected sensor normal is parallel to grad(R), pi/2 if it is parallel to grad(phi).

magnetics.bpol_probe[:].turns

(obsolescent)

INT_0D

Turns in the coil, including sign

magnetics.bpol_probe[:].type

(obsolescent)

STRUCTURE

Probe type
1) position : Position measurement probe
2) mirnov : Mirnov probe
3) hall : Hall probe
4) flux_gate : Flux gate probe
5) faraday_fiber : Faraday fiber
6) differential : Differential probe

magnetics.bpol_probe[:].type.description

(obsolescent)

STR_0D

Verbose description

magnetics.bpol_probe[:].type.index

(obsolescent)

INT_0D

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

magnetics.bpol_probe[:].type.name

(obsolescent)

STR_0D

Short string identifier

magnetics.bpol_probe[:].voltage

(obsolescent)

STRUCTURE

V

Voltage on the coil terminals

magnetics.bpol_probe[:].voltage.data

(obsolescent)

[magnetics.bpol_probe[:].voltage.time]

FLT_1D (uncertain)

V

Data

magnetics.bpol_probe[:].voltage.time

(obsolescent)

[1...N]

FLT_1D_TYPE

s

Time

magnetics.bpol_probe[:].voltage.validity

(obsolescent)

INT_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)

magnetics.bpol_probe[:].voltage.validity_timed

(obsolescent)

[magnetics.bpol_probe[:].voltage.time]

INT_1D

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)

magnetics.code

STRUCTURE

Generic decription of the code-specific parameters for the code that has produced this IDS

magnetics.code.commit

STR_0D

Unique commit reference of software

magnetics.code.description

STR_0D

Short description of the software (type, purpose)

magnetics.code.library

[1...N]

STRUCT_ARRAY

List of external libraries used by the code that has produced this IDS

magnetics.code.library[:].commit

STR_0D

Unique commit reference of software

magnetics.code.library[:].description

STR_0D

Short description of the software (type, purpose)

magnetics.code.library[:].name

STR_0D

Name of software

magnetics.code.library[:].parameters

STR_0D

List of the code specific parameters in XML format

magnetics.code.library[:].repository

STR_0D

URL of software repository

magnetics.code.library[:].version

STR_0D

Unique version (tag) of software

magnetics.code.name

STR_0D

Name of software generating IDS

magnetics.code.output_flag

[magnetics.time]

INT_1D

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.

magnetics.code.parameters

STR_0D

List of the code specific parameters in XML format

magnetics.code.repository

STR_0D

URL of software repository

magnetics.code.version

STR_0D

Unique version (tag) of software

magnetics.diamagnetic_flux

[1...N]

STRUCT_ARRAY

Wb

Diamagnetic flux. The array of structure corresponds to a set of calculation methods (starting with the generally recommended method).

magnetics.diamagnetic_flux[:].data

[magnetics.diamagnetic_flux[:].time]

FLT_1D (uncertain)

Wb

Data

magnetics.diamagnetic_flux[:].method_name

STR_0D

Name of the calculation method

magnetics.diamagnetic_flux[:].time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.flux_loop

[1...N]

STRUCT_ARRAY

Flux loops; partial flux loops can be described

magnetics.flux_loop[:].area

FLT_0D (uncertain)

m^2

Effective area (ratio between flux and average magnetic field over the loop)

magnetics.flux_loop[:].flux

STRUCTURE

Wb

Measured magnetic flux over loop in which Z component of normal to loop is directed downwards (negative grad Z direction)

magnetics.flux_loop[:].flux.data

[magnetics.flux_loop[:].flux.time]

FLT_1D (uncertain)

Wb

Data

magnetics.flux_loop[:].flux.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.flux_loop[:].flux.validity

INT_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)

magnetics.flux_loop[:].flux.validity_timed

[magnetics.flux_loop[:].flux.time]

INT_1D

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)

magnetics.flux_loop[:].gm9

FLT_0D (uncertain)

m

Integral of 1/R over the loop area (ratio between flux and magnetic rigidity R0.B0). Use only if ../type/index = 3 to 6, leave empty otherwise.

magnetics.flux_loop[:].identifier

STR_0D

ID of the flux loop

magnetics.flux_loop[:].indices_differential

[1...2]

INT_1D

Indices (from the flux_loop array of structure) of the two flux loops used to build the flux difference flux(second index) - flux(first index). Use only if ../type/index = 6, leave empty otherwise

magnetics.flux_loop[:].name

STR_0D

Name of the flux loop

magnetics.flux_loop[:].position

[1...N]

STRUCT_ARRAY

List of (R,Z,phi) points defining the position of the loop (see data structure documentation FLUXLOOPposition.pdf)

magnetics.flux_loop[:].position[:].phi

FLT_0D (uncertain)

rad

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

magnetics.flux_loop[:].position[:].r

FLT_0D (uncertain)

m

Major radius

magnetics.flux_loop[:].position[:].z

FLT_0D (uncertain)

m

Height

magnetics.flux_loop[:].type

STRUCTURE

Flux loop type
1) toroidal : Toroidal flux loop
2) saddle : Saddle loop
3) diamagnetic_internal : Diamagnetic internal loop
4) diamagnetic_external : Diamagnetic external loop
5) diamagnetic_compensation : Diamagnetic compensation loop
6) diamagnetic_differential : Diamagnetic differential loop

magnetics.flux_loop[:].type.description

STR_0D

Verbose description

magnetics.flux_loop[:].type.index

INT_0D

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

magnetics.flux_loop[:].type.name

STR_0D

Short string identifier

magnetics.flux_loop[:].voltage

STRUCTURE

V

Measured voltage between the loop terminals

magnetics.flux_loop[:].voltage.data

[magnetics.flux_loop[:].voltage.time]

FLT_1D (uncertain)

V

Data

magnetics.flux_loop[:].voltage.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.flux_loop[:].voltage.validity

INT_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)

magnetics.flux_loop[:].voltage.validity_timed

[magnetics.flux_loop[:].voltage.time]

INT_1D

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)

magnetics.ids_properties

STRUCTURE

Interface Data Structure properties. This element identifies the node above as an IDS

magnetics.ids_properties.comment

STR_0D

Any comment describing the content of this IDS

magnetics.ids_properties.creation_date

STR_0D

Date at which this data has been produced

magnetics.ids_properties.homogeneous_time

INT_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

magnetics.ids_properties.name

STR_0D

User-defined name for this IDS occurrence

magnetics.ids_properties.occurrence

INT_0D

magnetics.ids_properties.occurrence_type

STRUCTURE

Type of data contained in this occurrence
1) reconstruction : Equilibrium reconstruction
2) prediction_fixed : Equilibrium prediction, fixed boundary
3) prediction_free : Equilibrium prediction, free boundary
4) mapping : Used for mapping equilibrium results from one grid type / resolution to another, or for including variables not present in the first set such as the calculation of magnetic field of other derived parameters

magnetics.ids_properties.occurrence_type.description

STR_0D

Verbose description

magnetics.ids_properties.occurrence_type.index

INT_0D

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

magnetics.ids_properties.occurrence_type.name

STR_0D

Short string identifier

magnetics.ids_properties.plugins

(alpha)

STRUCTURE

Information about the plugins used to write/read this IDS. This structure is filled automatically by the Access Layer at GET/PUT time, no need to fill it via a user program.

magnetics.ids_properties.plugins.infrastructure_get

(alpha)

STRUCTURE

Plugin infrastructure used to GET the data

magnetics.ids_properties.plugins.infrastructure_get.commit

(alpha)

STR_0D

Unique commit reference of software

magnetics.ids_properties.plugins.infrastructure_get.description

(alpha)

STR_0D

Short description of the software (type, purpose)

magnetics.ids_properties.plugins.infrastructure_get.name

(alpha)

STR_0D

Name of software used

magnetics.ids_properties.plugins.infrastructure_get.repository

(alpha)

STR_0D

URL of software repository

magnetics.ids_properties.plugins.infrastructure_get.version

(alpha)

STR_0D

Unique version (tag) of software

magnetics.ids_properties.plugins.infrastructure_put

(alpha)

STRUCTURE

Plugin infrastructure used to PUT the data

magnetics.ids_properties.plugins.infrastructure_put.commit

(alpha)

STR_0D

Unique commit reference of software

magnetics.ids_properties.plugins.infrastructure_put.description

(alpha)

STR_0D

Short description of the software (type, purpose)

magnetics.ids_properties.plugins.infrastructure_put.name

(alpha)

STR_0D

Name of software used

magnetics.ids_properties.plugins.infrastructure_put.repository

(alpha)

STR_0D

URL of software repository

magnetics.ids_properties.plugins.infrastructure_put.version

(alpha)

STR_0D

Unique version (tag) of software

magnetics.ids_properties.plugins.node

(alpha)

[1...N]

STRUCT_ARRAY

Set of IDS nodes for which a plugin has been applied

magnetics.ids_properties.plugins.node[:].get_operation

(alpha)

[1...N]

STRUCT_ARRAY

Plugins actually used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application). This information is filled by the plugin infrastructure during the GET operation.

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

(alpha)

STR_0D

Unique commit reference of software

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

(alpha)

STR_0D

Short description of the software (type, purpose)

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

(alpha)

STR_0D

Name of software used

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

(alpha)

STR_0D

List of the code specific parameters in XML format

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

(alpha)

STR_0D

URL of software repository

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

(alpha)

STR_0D

Unique version (tag) of software

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

(alpha)

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.

magnetics.ids_properties.plugins.node[:].put_operation

(alpha)

[1...N]

STRUCT_ARRAY

Plugins used to PUT a node (potentially, multiple plugins can be applied, if so they are listed by order of application)

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

(alpha)

STR_0D

Unique commit reference of software

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

(alpha)

STR_0D

Short description of the software (type, purpose)

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

(alpha)

STR_0D

Name of software used

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

(alpha)

STR_0D

List of the code specific parameters in XML format

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

(alpha)

STR_0D

URL of software repository

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

(alpha)

STR_0D

Unique version (tag) of software

magnetics.ids_properties.plugins.node[:].readback

(alpha)

[1...N]

STRUCT_ARRAY

Plugins to be used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application)

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

(alpha)

STR_0D

Unique commit reference of software

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

(alpha)

STR_0D

Short description of the software (type, purpose)

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

(alpha)

STR_0D

Name of software used

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

(alpha)

STR_0D

List of the code specific parameters in XML format

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

(alpha)

STR_0D

URL of software repository

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

(alpha)

STR_0D

Unique version (tag) of software

magnetics.ids_properties.provenance

(alpha)

STRUCTURE

Provenance information about this IDS

magnetics.ids_properties.provenance.node

(alpha)

[1...N]

STRUCT_ARRAY

Set of IDS nodes for which the provenance is given. The provenance information applies to the whole structure below the IDS node. For documenting provenance information for the whole IDS, set the size of this array of structure to 1 and leave the child "path" node empty

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

(alpha)

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.

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

(alpha)

[1...N]

STR_1D

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.

magnetics.ids_properties.provider

STR_0D

Name of the person in charge of producing this data

magnetics.ids_properties.source

(obsolescent)

STR_0D

Source of the data (any comment describing the origin of the data : code, path to diagnostic signals, processing method, ...). Superseeded by the new provenance structure.

magnetics.ids_properties.version_put

STRUCTURE

Version of the access layer package used to PUT this IDS

magnetics.ids_properties.version_put.access_layer

STR_0D

Version of Access Layer used to PUT this IDS

magnetics.ids_properties.version_put.access_layer_language

STR_0D

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

magnetics.ids_properties.version_put.data_dictionary

STR_0D

Version of Data Dictionary used to PUT this IDS

magnetics.ip

[1...N]

STRUCT_ARRAY

A

Plasma current. Positive sign means anti-clockwise when viewed from above. The array of structure corresponds to a set of calculation methods (starting with the generally recommended method).

magnetics.ip[:].data

[magnetics.ip[:].time]

FLT_1D (uncertain)

A

Data

magnetics.ip[:].method_name

STR_0D

Name of the calculation method

magnetics.ip[:].time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.latency

FLT_0D (uncertain)

s

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

magnetics.method

(obsolescent)

[1...N]

STRUCT_ARRAY

A method generating processed quantities derived from the magnetic measurements

magnetics.method[:].ip

(obsolescent)

STRUCTURE

A

Plasma current. Positive sign means anti-clockwise when viewed from above.

magnetics.method[:].ip.data

(obsolescent)

[magnetics.method[:].ip.time]

FLT_1D (uncertain)

A

Data

magnetics.method[:].ip.time

(obsolescent)

[1...N]

FLT_1D_TYPE

s

Time

magnetics.method[:].name

(obsolescent)

STR_0D

Name of the data processing method

magnetics.rogowski_coil

[1...N]

STRUCT_ARRAY

Set of Rogowski coils. If some of the coils form a compound Rogowski sensor, they must be entered in continguous order

magnetics.rogowski_coil[:].area

FLT_0D (uncertain)

m^2

Effective area of the loop wrapped around the guiding centre. In case of multiple layers, sum of the areas of each layer

magnetics.rogowski_coil[:].current

STRUCTURE

A

Measured current inside the Rogowski coil contour. The normal direction to the Rogowski coil is defined by the order of points in the list of guiding centre positions. The current is positive when oriented in the same direction as the normal.

magnetics.rogowski_coil[:].current.data

[magnetics.rogowski_coil[:].current.time]

FLT_1D (uncertain)

A

Data

magnetics.rogowski_coil[:].current.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.rogowski_coil[:].current.validity

INT_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)

magnetics.rogowski_coil[:].current.validity_timed

[magnetics.rogowski_coil[:].current.time]

INT_1D

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)

magnetics.rogowski_coil[:].identifier

STR_0D

ID of the coil

magnetics.rogowski_coil[:].indices_compound

[1...N]

INT_1D

Indices (from the rogowski_coil array of structure) of the partial Rogoswkis used to build the coumpound signal (sum of the partial Rogoswki signals). Can be set to any unique integer value for each section of a compound rogowski coil. Use only if ../measure_quantity/index = 5, leave empty otherwise

magnetics.rogowski_coil[:].measured_quantity

STRUCTURE

Quantity measured by the sensor
1) plasma : Plasma current
2) plasma_eddy : Plasma and eddy currents
3) eddy : Eddy currents
4) halo : Halo currents
5) compound : Sensor composed of multiple partial Rogowskis

magnetics.rogowski_coil[:].measured_quantity.description

STR_0D

Verbose description

magnetics.rogowski_coil[:].measured_quantity.index

INT_0D

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

magnetics.rogowski_coil[:].measured_quantity.name

STR_0D

Short string identifier

magnetics.rogowski_coil[:].name

STR_0D

Name of the coil

magnetics.rogowski_coil[:].position

[1...N]

STRUCT_ARRAY

List of (R,Z,phi) points defining the position of the coil guiding centre. Values defining a single segment must be entered in contiguous order

magnetics.rogowski_coil[:].position[:].phi

FLT_0D (uncertain)

rad

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

magnetics.rogowski_coil[:].position[:].r

FLT_0D (uncertain)

m

Major radius

magnetics.rogowski_coil[:].position[:].z

FLT_0D (uncertain)

m

Height

magnetics.rogowski_coil[:].turns_per_metre

FLT_0D (uncertain)

m^-1

Number of turns per unit length. In case of multiple layers, turns are counted for a single layer

magnetics.shunt

[1...N]

STRUCT_ARRAY

Set of shunt resistances through which currents in the divertor structure are measured. Shunts are modelled as piecewise straight line segments in the poloidal plane.

magnetics.shunt[:].divertor_index

INT_0D

If the shunt is located on a given divertor, index of that divertor in the divertors IDS

magnetics.shunt[:].identifier

STR_0D

Alphanumeric identifier of the shunt

magnetics.shunt[:].name

STR_0D

Name of the shunt

magnetics.shunt[:].position

STRUCTURE

Position of shunt terminals

magnetics.shunt[:].position.first_point

STRUCTURE

Position of the first point

magnetics.shunt[:].position.first_point.r

FLT_0D (uncertain)

m

Major radius

magnetics.shunt[:].position.first_point.z

FLT_0D (uncertain)

m

Height

magnetics.shunt[:].position.second_point

STRUCTURE

Position of the second point

magnetics.shunt[:].position.second_point.r

FLT_0D (uncertain)

m

Major radius

magnetics.shunt[:].position.second_point.z

FLT_0D (uncertain)

m

Height

magnetics.shunt[:].resistance

FLT_0D (uncertain)

Ohm

Shunt resistance

magnetics.shunt[:].target_index

INT_0D

If the shunt is located on a divertor target, index of that target in the divertors IDS

magnetics.shunt[:].tile_index

INT_0D

If the shunt is located on a divertor tile, index of that tile in the divertors IDS

magnetics.shunt[:].voltage

STRUCTURE

V

Voltage on the shunt terminals (Vfirst_point-Vsecond_point)

magnetics.shunt[:].voltage.data

[magnetics.shunt[:].voltage.time]

FLT_1D (uncertain)

V

Data

magnetics.shunt[:].voltage.time

[1...N]

FLT_1D_TYPE

s

Time

magnetics.shunt[:].voltage.validity

INT_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)

magnetics.shunt[:].voltage.validity_timed

[magnetics.shunt[:].voltage.time]

INT_1D

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)

magnetics.time

[1...N]

FLT_1D_TYPE

s

Generic time