plasma_profiles¶
Plasma profiles (core and/or edge). This IDS is a prototype based on the merge of core_profiles, edge_profiles and the MHD IDS, for testing purposes only at this stage. It contains magnetic field maps to describe magnetic field fluctuations, while the equilibrium magnetic field is described in the equilibrium IDS
Maximum occurrences (MDS+ backend only): 5
New in version 3.42.0: lifecycle status alpha
Changed in version 4.1.0.
ids_propertiesstructure¶
See common IDS structure reference: ids_properties.
vacuum_toroidal_fieldstructure¶Characteristics of the vacuum toroidal field (used in rho_tor […]
Characteristics of the vacuum toroidal field (used in rho_tor definition and in the normalization of current densities)
vacuum_toroidal_field/r0 ⇹mFLT_0D¶Reference major radius where the vacuum toroidal magnetic field […]
Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)
midplanestructure¶Choice of midplane definition (use the lowest index number if […]
Choice of midplane definition (use the lowest index number if more than one value is relevant)
This is an identifier. See midplane_identifier for the available options.
global_quantitiesstructure¶Various global quantities derived from the profiles
Various global quantities derived from the profiles
global_quantities/ip(:) ⇹AFLT_1D¶Total plasma current (toroidal component). […]
Total plasma current (toroidal component). Positive sign means anti-clockwise when viewed from above.
1 |
global_quantities/current_non_inductive(:) ⇹AFLT_1D¶Total non-inductive current (toroidal component). […]
Total non-inductive current (toroidal component). Positive sign means anti-clockwise when viewed from above.
1 |
global_quantities/current_bootstrap(:) ⇹AFLT_1D¶Bootstrap current (toroidal component). […]
Bootstrap current (toroidal component). Positive sign means anti-clockwise when viewed from above.
1 |
global_quantities/v_loop(:) ⇹VFLT_1D¶LCFS loop voltage (positive value drives positive ohmic current […]
LCFS loop voltage (positive value drives positive ohmic current that flows anti-clockwise when viewed from above)
1 |
global_quantities/li_3(:) ⇹1FLT_1D¶Internal inductance. […]
Internal inductance. The li_3 definition is used, i.e. li_3 = 2/R0/mu0^2/Ip^2 * int(Bp^2 dV).
1 |
global_quantities/beta_tor(:) ⇹1FLT_1D¶Toroidal beta, defined as the volume-averaged total perpendicular […]
Toroidal beta, defined as the volume-averaged total perpendicular pressure divided by (B0^2/(2*mu0)), i.e. beta_toroidal = 2 mu0 int(p dV) / V / B0^2
1 |
global_quantities/beta_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal beta, defined as 100 \* beta_tor \* a[m] […]
Normalised toroidal beta, defined as 100 * beta_tor * a[m] * B0 [T] / ip [MA]
1 |
global_quantities/beta_pol(:) ⇹1FLT_1D¶Poloidal beta. […]
Poloidal beta. Defined as betap = 4 int(p dV) / [R_0 * mu_0 * Ip^2]
1 |
global_quantities/energy_diamagnetic(:) ⇹JFLT_1D¶Plasma energy content = 3/2 \* integral over the plasma volume […]
Plasma energy content = 3/2 * integral over the plasma volume of the total perpendicular pressure
1 |
global_quantities/z_eff_resistive(:) ⇹1FLT_1D¶Volume average plasma effective charge, estimated from the flux […]
Volume average plasma effective charge, estimated from the flux consumption in the ohmic phase
1 |
global_quantities/t_e_peaking(:) ⇹1FLT_1D¶Electron temperature peaking factor, defined as the Te value […]
Electron temperature peaking factor, defined as the Te value at the magnetic axis divided by the volume averaged Te (average over the plasma volume up to the LCFS)
1 |
global_quantities/t_i_average_peaking(:) ⇹1FLT_1D¶Ion temperature (averaged over ion species and states) peaking […]
Ion temperature (averaged over ion species and states) peaking factor, defined as the Ti value at the magnetic axis divided by the volume averaged Ti (average over the plasma volume up to the LCFS)
1 |
global_quantities/resistive_psi_losses(:) ⇹WbFLT_1D¶Resistive part of the poloidal flux losses, defined as the volume-averaged […]
Resistive part of the poloidal flux losses, defined as the volume-averaged scalar product of the electric field and the ohmic current density, normalized by the plasma current and integrated in time from the beginning of the plasma discharge: int ( (int(E_field_phi.j_ohm_phi) dV) / Ip ) dt)
1 |
global_quantities/ejima(:) ⇹1FLT_1D¶Ejima coefficient : resistive psi losses divided by (mu0\*R\*Ip). […]
Ejima coefficient : resistive psi losses divided by (mu0*R*Ip). See S. Ejima et al, Nuclear Fusion, Vol.22, No.10 (1982), 1313
1 |
global_quantities/t_e_volume_average(:) ⇹eVFLT_1D¶Volume averaged electron temperature (average over the plasma […]
Volume averaged electron temperature (average over the plasma volume up to the LCFS)
1 |
New in version >3.33.0.
global_quantities/n_e_volume_average(:) ⇹m^-3FLT_1D¶Volume averaged electron density (average over the plasma volume […]
Volume averaged electron density (average over the plasma volume up to the LCFS)
1 |
New in version >3.33.0.
global_quantities/ion(i1)AoS¶Quantities related to the different ion species, in the sense […]
Quantities related to the different ion species, in the sense of isonuclear or isomolecular sequences. The set of ion species of this array must be the same as the one defined in profiles_1d/ion, at the time slice indicated in ion_time_slice
Maximum occurrences (MDS+ backend only): 20
1 |
New in version >3.33.0.
global_quantities/ion(i1)/t_i_volume_average(:) ⇹eVFLT_1D¶Volume averaged temperature of this ion species (averaged over […]
Volume averaged temperature of this ion species (averaged over the plasma volume up to the LCFS)
1 |
profiles_1d(itime)AoS¶Radial profiles for various time slices. […]
Radial profiles for various time slices. Flux averaged profiles in the closed field line region (grid/rho_pol_norm <= 1) and taking local values on outboard equatorial mid-plane when in the SOL (grid/rho_pol_norm > 1)
1 |
profiles_1d(itime)/gridstructure¶Radial grid. […]
Radial grid. Note that some of the radial coordinates listed above are undefined outside the last closed flux surface, thus they must be filled with EMPTY_FLOAT values in such locations
profiles_1d(itime)/grid/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis) […]
Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis) / (psi(LCFS)-psi(magnetic_axis)))
1 |
|
profiles_1d(itime)/grid/psi(:) ⇹WbFLT_1D¶Poloidal magnetic flux. […]
Poloidal magnetic flux. Integral of magnetic field passing through a contour defined by the intersection of a flux surface passing through the point of interest and a Z=constant plane. If the integration surface is flat, the surface normal vector is in the increasing vertical coordinate direction, Z, namely upwards.
1 |
profiles_1d(itime)/grid/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate. […]
Normalised toroidal flux coordinate. The normalizing value for rho_tor_norm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see time_slice/boundary/b_flux_pol_norm in the equilibrium IDS)
1 |
profiles_1d(itime)/grid/rho_tor(:) ⇹mFLT_1D¶Toroidal flux coordinate. […]
Toroidal flux coordinate. rho_tor = sqrt(b_flux_tor/(pi*b0)) ~ sqrt(pi*r^2*b0/(pi*b0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuum_toroidal_field/b0
1 |
profiles_1d(itime)/grid/volume(:) ⇹m^3FLT_1D¶Volume enclosed inside the magnetic surface
Volume enclosed inside the magnetic surface
1 |
profiles_1d(itime)/grid/area(:) ⇹m^2FLT_1D¶Cross-sectional area of the flux surface
Cross-sectional area of the flux surface
1 |
profiles_1d(itime)/grid/surface(:) ⇹m^2FLT_1D¶Surface area of the toroidal flux surface
Surface area of the toroidal flux surface
1 |
profiles_1d(itime)/electronsstructure¶Quantities related to the electrons
Quantities related to the electrons
profiles_1d(itime)/electrons/temperature_validityINT_0D¶Indicator of the validity of the temperature profile. […]
Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used
profiles_1d(itime)/electrons/temperature_fiteVstructure¶Information on the fit used to obtain the temperature profile
Information on the fit used to obtain the temperature profile
profiles_1d(itime)/electrons/temperature_fit/measured(:) ⇹mixedFLT_1D¶Measured values. […]
Measured values. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
|
profiles_1d(itime)/electrons/temperature_fit/source(:)STR_1D¶Path to the source data for each measurement in the IMAS data […]
Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS
1 |
profiles_1d(itime)/electrons/temperature_fit/time_measurement(:) ⇹sFLT_1D¶Exact time slices used from the time array of the measurement […]
Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used
1 |
profiles_1d(itime)/electrons/temperature_fit/time_measurement_slice_methodstructure¶Method used to slice the data : index = 0 means using exact time […]
Method used to slice the data : index = 0 means using exact time slice of the measurement, 1 means linear interpolation, …
profiles_1d(itime)/electrons/temperature_fit/time_measurement_slice_method/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/electrons/temperature_fit/time_measurement_width(:) ⇹sFLT_1D¶In case the measurements are averaged over a time interval, this […]
In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn’t use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at time_measurement-time_width and ends at time_measurement.
1 |
profiles_1d(itime)/electrons/temperature_fit/local(:)INT_1D¶Integer flag : 1 means local measurement, 0 means line-integrated […]
Integer flag : 1 means local measurement, 0 means line-integrated measurement
1 |
profiles_1d(itime)/electrons/temperature_fit/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate of each measurement (local […]
Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/electrons/temperature_fit/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate of each measurement (local […]
Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/electrons/temperature_fit/weight(:) ⇹1FLT_1D¶Weight given to each measured value
Weight given to each measured value
1 |
profiles_1d(itime)/electrons/temperature_fit/reconstructed(:) ⇹mixedFLT_1D¶Value reconstructed from the fit. […]
Value reconstructed from the fit. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
profiles_1d(itime)/electrons/temperature_fit/chi_squared(:) ⇹1FLT_1D¶Squared error normalized by the weighted standard deviation considered […]
Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error
1 |
profiles_1d(itime)/electrons/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
1 |
profiles_1d(itime)/electrons/density_validityINT_0D¶Indicator of the validity of the density profile. […]
Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used
profiles_1d(itime)/electrons/density_fitm^-3structure¶Information on the fit used to obtain the density profile
Information on the fit used to obtain the density profile
profiles_1d(itime)/electrons/density_fit/measured(:) ⇹mixedFLT_1D¶Measured values. […]
Measured values. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
|
profiles_1d(itime)/electrons/density_fit/source(:)STR_1D¶Path to the source data for each measurement in the IMAS data […]
Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS
1 |
profiles_1d(itime)/electrons/density_fit/time_measurement(:) ⇹sFLT_1D¶Exact time slices used from the time array of the measurement […]
Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used
1 |
profiles_1d(itime)/electrons/density_fit/time_measurement_slice_methodstructure¶Method used to slice the data : index = 0 means using exact time […]
Method used to slice the data : index = 0 means using exact time slice of the measurement, 1 means linear interpolation, …
profiles_1d(itime)/electrons/density_fit/time_measurement_slice_method/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/electrons/density_fit/time_measurement_width(:) ⇹sFLT_1D¶In case the measurements are averaged over a time interval, this […]
In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn’t use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at time_measurement-time_width and ends at time_measurement.
1 |
profiles_1d(itime)/electrons/density_fit/local(:)INT_1D¶Integer flag : 1 means local measurement, 0 means line-integrated […]
Integer flag : 1 means local measurement, 0 means line-integrated measurement
1 |
profiles_1d(itime)/electrons/density_fit/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate of each measurement (local […]
Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/electrons/density_fit/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate of each measurement (local […]
Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/electrons/density_fit/weight(:) ⇹1FLT_1D¶Weight given to each measured value
Weight given to each measured value
1 |
profiles_1d(itime)/electrons/density_fit/reconstructed(:) ⇹mixedFLT_1D¶Value reconstructed from the fit. […]
Value reconstructed from the fit. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
profiles_1d(itime)/electrons/density_fit/chi_squared(:) ⇹1FLT_1D¶Squared error normalized by the weighted standard deviation considered […]
Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error
1 |
profiles_1d(itime)/electrons/density_thermal(:) ⇹m^-3FLT_1D¶Density of thermal particles
Density of thermal particles
1 |
profiles_1d(itime)/electrons/density_fast(:) ⇹m^-3FLT_1D¶Density of fast (non-thermal) particles
Density of fast (non-thermal) particles
1 |
profiles_1d(itime)/electrons/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
1 |
profiles_1d(itime)/electrons/pressure_thermal(:) ⇹PaFLT_1D¶Pressure (thermal) associated with random motion ~average((v-average(v))^2)
Pressure (thermal) associated with random motion ~average((v-average(v))^2)
1 |
profiles_1d(itime)/electrons/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Fast (non-thermal) perpendicular pressure
Fast (non-thermal) perpendicular pressure
1 |
profiles_1d(itime)/electrons/pressure_fast_parallel(:) ⇹PaFLT_1D¶Fast (non-thermal) parallel pressure
Fast (non-thermal) parallel pressure
1 |
profiles_1d(itime)/ion(i1)AoS¶Quantities related to the different ion species, in the sense […]
Quantities related to the different ion species, in the sense of isonuclear or isomolecular sequences. Ionisation states (and other types of states) must be differentiated at the state level below
1 |
|
profiles_1d(itime)/ion(i1)/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
profiles_1d(itime)/ion(i1)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionisation state; lumped ions are […]
Ion charge (of the dominant ionisation state; lumped ions are allowed), volume averaged over plasma radius
profiles_1d(itime)/ion(i1)/labelSTR_0D¶String identifying ion (e.g. […]
String identifying ion (e.g. H, D, T, He, C, D2, …)
profiles_1d(itime)/ion(i1)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […]
Index of the corresponding neutral species in the ../../neutral array
profiles_1d(itime)/ion(i1)/z_ion_1d(:) ⇹1FLT_1D¶Average charge of the ion species (sum of states charge weighted […]
Average charge of the ion species (sum of states charge weighted by state density and divided by ion density)
1 |
profiles_1d(itime)/ion(i1)/z_ion_square_1d(:) ⇹1FLT_1D¶Average square charge of the ion species (sum of states square […]
Average square charge of the ion species (sum of states square charge weighted by state density and divided by ion density)
1 |
profiles_1d(itime)/ion(i1)/temperature(:) ⇹eVFLT_1D¶Temperature (average over charge states when multiple charge […]
Temperature (average over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/temperature_validityINT_0D¶Indicator of the validity of the temperature profile. […]
Indicator of the validity of the temperature profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used
profiles_1d(itime)/ion(i1)/temperature_fiteVstructure¶Information on the fit used to obtain the temperature profile
Information on the fit used to obtain the temperature profile
profiles_1d(itime)/ion(i1)/temperature_fit/measured(:) ⇹mixedFLT_1D¶Measured values. […]
Measured values. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
|
profiles_1d(itime)/ion(i1)/temperature_fit/source(:)STR_1D¶Path to the source data for each measurement in the IMAS data […]
Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/time_measurement(:) ⇹sFLT_1D¶Exact time slices used from the time array of the measurement […]
Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/time_measurement_slice_methodstructure¶Method used to slice the data : index = 0 means using exact time […]
Method used to slice the data : index = 0 means using exact time slice of the measurement, 1 means linear interpolation, …
profiles_1d(itime)/ion(i1)/temperature_fit/time_measurement_slice_method/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/ion(i1)/temperature_fit/time_measurement_width(:) ⇹sFLT_1D¶In case the measurements are averaged over a time interval, this […]
In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn’t use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at time_measurement-time_width and ends at time_measurement.
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/local(:)INT_1D¶Integer flag : 1 means local measurement, 0 means line-integrated […]
Integer flag : 1 means local measurement, 0 means line-integrated measurement
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate of each measurement (local […]
Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate of each measurement (local […]
Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/weight(:) ⇹1FLT_1D¶Weight given to each measured value
Weight given to each measured value
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/reconstructed(:) ⇹mixedFLT_1D¶Value reconstructed from the fit. […]
Value reconstructed from the fit. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
profiles_1d(itime)/ion(i1)/temperature_fit/chi_squared(:) ⇹1FLT_1D¶Squared error normalized by the weighted standard deviation considered […]
Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error
1 |
profiles_1d(itime)/ion(i1)/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal) (sum over charge states when multiple […]
Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/density_validityINT_0D¶Indicator of the validity of the density profile. […]
Indicator of the validity of the density profile. 0: valid from automated processing, 1: valid and certified by the RO; - 1 means problem identified in the data processing (request verification by the RO), -2: invalid data, should not be used
profiles_1d(itime)/ion(i1)/density_fitm^-3structure¶Information on the fit used to obtain the density profile
Information on the fit used to obtain the density profile
profiles_1d(itime)/ion(i1)/density_fit/measured(:) ⇹mixedFLT_1D¶Measured values. […]
Measured values. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
|
profiles_1d(itime)/ion(i1)/density_fit/source(:)STR_1D¶Path to the source data for each measurement in the IMAS data […]
Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS
1 |
profiles_1d(itime)/ion(i1)/density_fit/time_measurement(:) ⇹sFLT_1D¶Exact time slices used from the time array of the measurement […]
Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used
1 |
profiles_1d(itime)/ion(i1)/density_fit/time_measurement_slice_methodstructure¶Method used to slice the data : index = 0 means using exact time […]
Method used to slice the data : index = 0 means using exact time slice of the measurement, 1 means linear interpolation, …
profiles_1d(itime)/ion(i1)/density_fit/time_measurement_slice_method/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/ion(i1)/density_fit/time_measurement_width(:) ⇹sFLT_1D¶In case the measurements are averaged over a time interval, this […]
In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn’t use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at time_measurement-time_width and ends at time_measurement.
1 |
profiles_1d(itime)/ion(i1)/density_fit/local(:)INT_1D¶Integer flag : 1 means local measurement, 0 means line-integrated […]
Integer flag : 1 means local measurement, 0 means line-integrated measurement
1 |
profiles_1d(itime)/ion(i1)/density_fit/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate of each measurement (local […]
Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/ion(i1)/density_fit/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate of each measurement (local […]
Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/ion(i1)/density_fit/weight(:) ⇹1FLT_1D¶Weight given to each measured value
Weight given to each measured value
1 |
profiles_1d(itime)/ion(i1)/density_fit/reconstructed(:) ⇹mixedFLT_1D¶Value reconstructed from the fit. […]
Value reconstructed from the fit. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
profiles_1d(itime)/ion(i1)/density_fit/chi_squared(:) ⇹1FLT_1D¶Squared error normalized by the weighted standard deviation considered […]
Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error
1 |
profiles_1d(itime)/ion(i1)/density_thermal(:) ⇹m^-3FLT_1D¶Density (thermal) (sum over charge states when multiple charge […]
Density (thermal) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/density_fast(:) ⇹m^-3FLT_1D¶Density of fast (non-thermal) particles (sum over charge states […]
Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal) (sum over charge states when multiple […]
Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/pressure_thermal(:) ⇹PaFLT_1D¶Pressure (thermal) associated with random motion ~average((v-average(v))^2) […]
Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Fast (non-thermal) perpendicular pressure (sum over charge states […]
Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/pressure_fast_parallel(:) ⇹PaFLT_1D¶Fast (non-thermal) parallel pressure (sum over charge states […]
Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/rotation_frequency_tor(:) ⇹rad.s^-1FLT_1D¶Toroidal rotation frequency (i.e. […]
Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken) (average over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/ion(i1)/velocitym.s^-1structure¶Velocity (average over charge states when multiple charge states […]
Velocity (average over charge states when multiple charge states are considered) at the position of maximum major radius on every flux surface
profiles_1d(itime)/ion(i1)/velocity/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component
Diamagnetic component
1 |
profiles_1d(itime)/ion(i1)/velocity/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component
Parallel component
1 |
profiles_1d(itime)/ion(i1)/velocity/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component
Poloidal component
1 |
profiles_1d(itime)/ion(i1)/multiple_states_flagINT_0D¶Multiple states calculation flag : 0-Only the ‘ion’ level is […]
Multiple states calculation flag : 0-Only the ‘ion’ level is considered and the ‘state’ array of structure is empty; 1-Ion states are considered and are described in the ‘state’ array of structure
profiles_1d(itime)/ion(i1)/state(i2)AoS¶Quantities related to the different states of the species (ionisation, […]
Quantities related to the different states of the species (ionisation, energy, excitation, …)
1 |
|
profiles_1d(itime)/ion(i1)/state(i2)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle
Minimum Z of the charge state bundle
profiles_1d(itime)/ion(i1)/state(i2)/z_max ⇹eFLT_0D¶Maximum Z of the charge state bundle (equal to z_min if no bundle)
Maximum Z of the charge state bundle (equal to z_min if no bundle)
profiles_1d(itime)/ion(i1)/state(i2)/z_average ⇹eFLT_0D¶Average Z of the charge state bundle, volume averaged over the […]
Average Z of the charge state bundle, volume averaged over the plasma radius (equal to z_min if no bundle), = sum (Z*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
profiles_1d(itime)/ion(i1)/state(i2)/z_square_average ⇹eFLT_0D¶Average Z square of the charge state bundle, volume averaged […]
Average Z square of the charge state bundle, volume averaged over the plasma radius (equal to z_min squared if no bundle), = sum (Z^2*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
profiles_1d(itime)/ion(i1)/state(i2)/z_average_1d(:) ⇹1FLT_1D¶Average charge profile of the charge state bundle (equal to z_min […]
Average charge profile of the charge state bundle (equal to z_min if no bundle), = sum (Z*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
1 |
profiles_1d(itime)/ion(i1)/state(i2)/z_average_square_1d(:) ⇹1FLT_1D¶Average square charge profile of the charge state bundle (equal […]
Average square charge profile of the charge state bundle (equal to z_min squared if no bundle), = sum (Z^2*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
1 |
profiles_1d(itime)/ion(i1)/state(i2)/ionisation_potential ⇹eVFLT_0D¶Cumulative and average ionisation potential to reach a given […]
Cumulative and average ionisation potential to reach a given bundle. Defined as sum (x_z* (sum of Epot from z’=0 to z-1)), where Epot is the ionisation potential of ion Xz_+, and x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
profiles_1d(itime)/ion(i1)/state(i2)/labelSTR_0D¶String identifying state (e.g. […]
String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
profiles_1d(itime)/ion(i1)/state(i2)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […]
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
profiles_1d(itime)/ion(i1)/state(i2)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
profiles_1d(itime)/ion(i1)/state(i2)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […]
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
profiles_1d(itime)/ion(i1)/state(i2)/rotation_frequency_tor(:) ⇹rad.s^-1FLT_1D¶Toroidal rotation frequency (i.e. […]
Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken)
1 |
profiles_1d(itime)/ion(i1)/state(i2)/velocitym.s^-1structure¶Velocity at the position of maximum major radius on every flux […]
Velocity at the position of maximum major radius on every flux surface
New in version >4.0.0.
profiles_1d(itime)/ion(i1)/state(i2)/velocity/radial(:) ⇹m.s^-1FLT_1D¶Radial component
Radial component
1 |
profiles_1d(itime)/ion(i1)/state(i2)/velocity/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component
Diamagnetic component
1 |
profiles_1d(itime)/ion(i1)/state(i2)/velocity/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component
Parallel component
1 |
profiles_1d(itime)/ion(i1)/state(i2)/velocity/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component
Poloidal component
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fitm^-3structure¶Information on the fit used to obtain the density profile
Information on the fit used to obtain the density profile
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/measured(:) ⇹mixedFLT_1D¶Measured values. […]
Measured values. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
|
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/source(:)STR_1D¶Path to the source data for each measurement in the IMAS data […]
Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/time_measurement(:) ⇹sFLT_1D¶Exact time slices used from the time array of the measurement […]
Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/time_measurement_slice_methodstructure¶Method used to slice the data : index = 0 means using exact time […]
Method used to slice the data : index = 0 means using exact time slice of the measurement, 1 means linear interpolation, …
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/time_measurement_slice_method/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/time_measurement_width(:) ⇹sFLT_1D¶In case the measurements are averaged over a time interval, this […]
In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn’t use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at time_measurement-time_width and ends at time_measurement.
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/local(:)INT_1D¶Integer flag : 1 means local measurement, 0 means line-integrated […]
Integer flag : 1 means local measurement, 0 means line-integrated measurement
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate of each measurement (local […]
Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate of each measurement (local […]
Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/weight(:) ⇹1FLT_1D¶Weight given to each measured value
Weight given to each measured value
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/reconstructed(:) ⇹mixedFLT_1D¶Value reconstructed from the fit. […]
Value reconstructed from the fit. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fit/chi_squared(:) ⇹1FLT_1D¶Squared error normalized by the weighted standard deviation considered […]
Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_thermal(:) ⇹m^-3FLT_1D¶Density of thermal particles
Density of thermal particles
1 |
profiles_1d(itime)/ion(i1)/state(i2)/density_fast(:) ⇹m^-3FLT_1D¶Density of fast (non-thermal) particles
Density of fast (non-thermal) particles
1 |
profiles_1d(itime)/ion(i1)/state(i2)/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
1 |
profiles_1d(itime)/ion(i1)/state(i2)/pressure_thermal(:) ⇹PaFLT_1D¶Pressure (thermal) associated with random motion ~average((v-average(v))^2)
Pressure (thermal) associated with random motion ~average((v-average(v))^2)
1 |
profiles_1d(itime)/ion(i1)/state(i2)/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Fast (non-thermal) perpendicular pressure
Fast (non-thermal) perpendicular pressure
1 |
profiles_1d(itime)/neutral(i1)AoS¶Quantities related to the different neutral species
Quantities related to the different neutral species
1 |
|
profiles_1d(itime)/neutral(i1)/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
profiles_1d(itime)/neutral(i1)/labelSTR_0D¶String identifying the species (e.g. […]
String identifying the species (e.g. H, D, T, He, C, D2, DT, CD4, …)
profiles_1d(itime)/neutral(i1)/ion_indexINT_0D¶Index of the corresponding ion species in the ../../ion array
Index of the corresponding ion species in the ../../ion array
profiles_1d(itime)/neutral(i1)/temperature(:) ⇹eVFLT_1D¶Temperature (average over charge states when multiple charge […]
Temperature (average over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal) (sum over charge states when multiple […]
Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/density_thermal(:) ⇹m^-3FLT_1D¶Density (thermal) (sum over charge states when multiple charge […]
Density (thermal) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/density_fast(:) ⇹m^-3FLT_1D¶Density of fast (non-thermal) particles (sum over charge states […]
Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal) (sum over charge states when multiple […]
Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/pressure_thermal(:) ⇹PaFLT_1D¶Pressure (thermal) associated with random motion ~average((v-average(v))^2) […]
Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Fast (non-thermal) perpendicular pressure (sum over charge states […]
Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/pressure_fast_parallel(:) ⇹PaFLT_1D¶Fast (non-thermal) parallel pressure (sum over charge states […]
Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)
1 |
profiles_1d(itime)/neutral(i1)/multiple_states_flagINT_0D¶Multiple states calculation flag : 0-Only one state is considered; […]
Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
profiles_1d(itime)/neutral(i1)/state(i2)AoS¶Quantities related to the different states of the species (energy, […]
Quantities related to the different states of the species (energy, excitation, …)
1 |
|
profiles_1d(itime)/neutral(i1)/state(i2)/labelSTR_0D¶String identifying state
String identifying state
profiles_1d(itime)/neutral(i1)/state(i2)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […]
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
profiles_1d(itime)/neutral(i1)/state(i2)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
profiles_1d(itime)/neutral(i1)/state(i2)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […]
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
profiles_1d(itime)/neutral(i1)/state(i2)/neutral_typestructure¶Neutral type (if the considered state is a neutral), in terms […]
Neutral type (if the considered state is a neutral), in terms of energy. ID =1: cold; 2: thermal; 3: fast; 4: NBI
This is an identifier. See neutrals_identifier for the available options.
profiles_1d(itime)/neutral(i1)/state(i2)/neutral_type/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/neutral(i1)/state(i2)/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
1 |
profiles_1d(itime)/neutral(i1)/state(i2)/density_thermal(:) ⇹m^-3FLT_1D¶Density of thermal particles
Density of thermal particles
1 |
profiles_1d(itime)/neutral(i1)/state(i2)/density_fast(:) ⇹m^-3FLT_1D¶Density of fast (non-thermal) particles
Density of fast (non-thermal) particles
1 |
profiles_1d(itime)/neutral(i1)/state(i2)/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
1 |
profiles_1d(itime)/neutral(i1)/state(i2)/pressure_thermal(:) ⇹PaFLT_1D¶Pressure (thermal) associated with random motion ~average((v-average(v))^2)
Pressure (thermal) associated with random motion ~average((v-average(v))^2)
1 |
profiles_1d(itime)/neutral(i1)/state(i2)/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Fast (non-thermal) perpendicular pressure
Fast (non-thermal) perpendicular pressure
1 |
profiles_1d(itime)/t_i_average(:) ⇹eVFLT_1D¶Ion temperature (averaged on charge states and ion species)
Ion temperature (averaged on charge states and ion species)
1 |
profiles_1d(itime)/t_i_average_fiteVstructure¶Information on the fit used to obtain the t_i_average profile
Information on the fit used to obtain the t_i_average profile
profiles_1d(itime)/t_i_average_fit/measured(:) ⇹mixedFLT_1D¶Measured values. […]
Measured values. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
|
profiles_1d(itime)/t_i_average_fit/source(:)STR_1D¶Path to the source data for each measurement in the IMAS data […]
Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS
1 |
profiles_1d(itime)/t_i_average_fit/time_measurement(:) ⇹sFLT_1D¶Exact time slices used from the time array of the measurement […]
Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used
1 |
profiles_1d(itime)/t_i_average_fit/time_measurement_slice_methodstructure¶Method used to slice the data : index = 0 means using exact time […]
Method used to slice the data : index = 0 means using exact time slice of the measurement, 1 means linear interpolation, …
profiles_1d(itime)/t_i_average_fit/time_measurement_slice_method/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/t_i_average_fit/time_measurement_width(:) ⇹sFLT_1D¶In case the measurements are averaged over a time interval, this […]
In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn’t use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at time_measurement-time_width and ends at time_measurement.
1 |
profiles_1d(itime)/t_i_average_fit/local(:)INT_1D¶Integer flag : 1 means local measurement, 0 means line-integrated […]
Integer flag : 1 means local measurement, 0 means line-integrated measurement
1 |
profiles_1d(itime)/t_i_average_fit/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate of each measurement (local […]
Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/t_i_average_fit/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate of each measurement (local […]
Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/t_i_average_fit/weight(:) ⇹1FLT_1D¶Weight given to each measured value
Weight given to each measured value
1 |
profiles_1d(itime)/t_i_average_fit/reconstructed(:) ⇹mixedFLT_1D¶Value reconstructed from the fit. […]
Value reconstructed from the fit. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
profiles_1d(itime)/t_i_average_fit/chi_squared(:) ⇹1FLT_1D¶Squared error normalized by the weighted standard deviation considered […]
Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error
1 |
profiles_1d(itime)/n_i_total_over_n_e(:) ⇹1FLT_1D¶Ratio of total ion density (sum over species and charge states) […]
Ratio of total ion density (sum over species and charge states) over electron density. (thermal+non-thermal)
1 |
profiles_1d(itime)/n_i_thermal_total(:) ⇹m^-3FLT_1D¶Total ion thermal density (sum over species and charge states)
Total ion thermal density (sum over species and charge states)
1 |
profiles_1d(itime)/momentum_phi(:) ⇹kg.m^-1.s^-1FLT_1D¶Total plasma toroidal momentum, summed over ion species and electrons […]
Total plasma toroidal momentum, summed over ion species and electrons weighted by their density and major radius, i.e. sum_over_species(n*R*m*Vphi)
1 |
profiles_1d(itime)/zeff_fit1structure¶Information on the fit used to obtain the zeff profile
Information on the fit used to obtain the zeff profile
profiles_1d(itime)/zeff_fit/measured(:) ⇹mixedFLT_1D¶Measured values. […]
Measured values. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
|
profiles_1d(itime)/zeff_fit/source(:)STR_1D¶Path to the source data for each measurement in the IMAS data […]
Path to the source data for each measurement in the IMAS data dictionary, e.g. ece/channel(i)/t_e for the electron temperature on the i-th channel in the ECE IDS
1 |
profiles_1d(itime)/zeff_fit/time_measurement(:) ⇹sFLT_1D¶Exact time slices used from the time array of the measurement […]
Exact time slices used from the time array of the measurement source data. If the time slice does not exist in the time array of the source data, it means linear interpolation has been used
1 |
profiles_1d(itime)/zeff_fit/time_measurement_slice_methodstructure¶Method used to slice the data : index = 0 means using exact time […]
Method used to slice the data : index = 0 means using exact time slice of the measurement, 1 means linear interpolation, …
profiles_1d(itime)/zeff_fit/time_measurement_slice_method/nameSTR_0D¶Short string identifier
Short string identifier
profiles_1d(itime)/zeff_fit/time_measurement_width(:) ⇹sFLT_1D¶In case the measurements are averaged over a time interval, this […]
In case the measurements are averaged over a time interval, this node is the full width of this time interval (empty otherwise). In case the slicing/averaging method doesn’t use a hard time interval cutoff, this width is the characteristic time span of the slicing/averaging method. By convention, the time interval starts at time_measurement-time_width and ends at time_measurement.
1 |
profiles_1d(itime)/zeff_fit/local(:)INT_1D¶Integer flag : 1 means local measurement, 0 means line-integrated […]
Integer flag : 1 means local measurement, 0 means line-integrated measurement
1 |
profiles_1d(itime)/zeff_fit/rho_tor_norm(:) ⇹1FLT_1D¶Normalised toroidal flux coordinate of each measurement (local […]
Normalised toroidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/zeff_fit/rho_pol_norm(:) ⇹1FLT_1D¶Normalised poloidal flux coordinate of each measurement (local […]
Normalised poloidal flux coordinate of each measurement (local value for a local measurement, minimum value reached by the line of sight for a line measurement)
1 |
profiles_1d(itime)/zeff_fit/weight(:) ⇹1FLT_1D¶Weight given to each measured value
Weight given to each measured value
1 |
profiles_1d(itime)/zeff_fit/reconstructed(:) ⇹mixedFLT_1D¶Value reconstructed from the fit. […]
Value reconstructed from the fit. Units are: as_parent for a local measurement, as_parent.m for a line integrated measurement.
1 |
profiles_1d(itime)/zeff_fit/chi_squared(:) ⇹1FLT_1D¶Squared error normalized by the weighted standard deviation considered […]
Squared error normalized by the weighted standard deviation considered in the minimization process : chi_squared = weight^2 *(reconstructed - measured)^2 / sigma^2, where sigma is the standard deviation of the measurement error
1 |
profiles_1d(itime)/pressure_ion_total(:) ⇹PaFLT_1D¶Total (sum over ion species) thermal ion pressure
Total (sum over ion species) thermal ion pressure
1 |
profiles_1d(itime)/pressure_thermal(:) ⇹PaFLT_1D¶Thermal pressure (electrons+ions)
Thermal pressure (electrons+ions)
1 |
profiles_1d(itime)/pressure_perpendicular(:) ⇹PaFLT_1D¶Total perpendicular pressure (electrons+ions, thermal+non-thermal)
Total perpendicular pressure (electrons+ions, thermal+non-thermal)
1 |
profiles_1d(itime)/pressure_parallel(:) ⇹PaFLT_1D¶Total parallel pressure (electrons+ions, thermal+non-thermal)
Total parallel pressure (electrons+ions, thermal+non-thermal)
1 |
profiles_1d(itime)/j_total(:) ⇹A.m^-2FLT_1D¶Total parallel current density = average(jtot.B) / B0, where […]
Total parallel current density = average(jtot.B) / B0, where B0 = plasma_profiles/Vacuum_Toroidal_Field/ B0
1 |
profiles_1d(itime)/current_parallel_inside(:) ⇹AFLT_1D¶Parallel current driven inside the flux surface. […]
Parallel current driven inside the flux surface. Cumulative surface integral of j_total
1 |
profiles_1d(itime)/j_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal current density = average(j_phi/R) / average(1/R)
Total toroidal current density = average(j_phi/R) / average(1/R)
1 |
profiles_1d(itime)/j_ohmic(:) ⇹A.m^-2FLT_1D¶Ohmic parallel current density = average(J_Ohmic.B) / B0, where […]
Ohmic parallel current density = average(J_Ohmic.B) / B0, where B0 = plasma_profiles/Vacuum_Toroidal_Field/ B0
1 |
profiles_1d(itime)/j_non_inductive(:) ⇹A.m^-2FLT_1D¶Non-inductive (includes bootstrap) parallel current density = […]
Non-inductive (includes bootstrap) parallel current density = average(jni.B) / B0, where B0 = plasma_profiles/Vacuum_Toroidal_Field/ B0
1 |
profiles_1d(itime)/j_bootstrap(:) ⇹A.m^-2FLT_1D¶Bootstrap current density = average(J_Bootstrap.B) / B0, where […]
Bootstrap current density = average(J_Bootstrap.B) / B0, where B0 = plasma_profiles/Vacuum_Toroidal_Field/ B0
1 |
profiles_1d(itime)/conductivity_parallel(:) ⇹ohm^-1.m^-1FLT_1D¶Parallel conductivity
Parallel conductivity
1 |
profiles_1d(itime)/e_fieldV.m^-1structure¶Electric field, averaged on the magnetic surface. […]
Electric field, averaged on the magnetic surface. E.g for the parallel component, average(E.B) / B0, using plasma_profiles/vacuum_toroidal_field/b0
profiles_1d(itime)/e_field/diamagnetic(:) ⇹V.m^-1FLT_1D¶Diamagnetic component
Diamagnetic component
1 |
profiles_1d(itime)/phi_potential(:) ⇹VFLT_1D¶Electrostatic potential, averaged on the magnetic flux surface
Electrostatic potential, averaged on the magnetic flux surface
1 |
profiles_1d(itime)/rotation_frequency_tor_sonic(:) ⇹s^-1FLT_1D¶Derivative of the flux surface averaged electrostatic potential […]
Derivative of the flux surface averaged electrostatic potential with respect to the poloidal flux, multiplied by (-1/2pi). This quantity is the toroidal angular rotation frequency due to the ExB drift, introduced in formula (43) of Hinton and Wong, Physics of Fluids 3082 (1985), also referred to as sonic flow in regimes in which the toroidal velocity is dominant over the poloidal velocity
Click here for further documentation.
1 |
profiles_2d(itime)AoS¶Plasma quantities in a poloidal cross section, for various time […]
Plasma quantities in a poloidal cross section, for various time slices
1 |
New in version 3.39.0: lifecycle status alpha
New in version >3.38.1.
profiles_2d(itime)/grid_typestructure¶Selection of one of a set of grid types
Selection of one of a set of grid types
This is an identifier. See poloidal_plane_coordinates_identifier for the available options.
profiles_2d(itime)/gridstructure¶Definition of the 2D grid (the content of dim1 and dim2 is defined […]
Definition of the 2D grid (the content of dim1 and dim2 is defined by the selected grid_type)
profiles_2d(itime)/grid/dim2(:) ⇹mixedFLT_1D¶Second dimension values
Second dimension values
1 |
|
profiles_2d(itime)/ion(i1)AoS¶2D quantities related to the different ion species, in the sense […]
2D quantities related to the different ion species, in the sense of isonuclear or isomolecular sequences. Ionisation states (or other types of states) must be differentiated at the state level below. This array doesn’t necessarily have the same size as the profiles_1d/ion array, since 2D data may be relevant only for a subset of ion species.
1 |
|
profiles_2d(itime)/ion(i1)/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
profiles_2d(itime)/ion(i1)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionisation state; lumped ions are […]
Ion charge (of the dominant ionisation state; lumped ions are allowed), volume averaged over plasma radius
profiles_2d(itime)/ion(i1)/labelSTR_0D¶String identifying ion (e.g. […]
String identifying ion (e.g. H, D, T, He, C, D2, …)
profiles_2d(itime)/ion(i1)/ion_indexINT_0D¶Index of the corresponding ion species in the ../../../profiles_1d/ion […]
Index of the corresponding ion species in the ../../../profiles_1d/ion array
profiles_2d(itime)/ion(i1)/temperature(:,:) ⇹eVFLT_2D¶Temperature (average over charge states when multiple charge […]
Temperature (average over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/density(:,:) ⇹m^-3FLT_2D¶Density (thermal+non-thermal) (sum over charge states when multiple […]
Density (thermal+non-thermal) (sum over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/density_thermal(:,:) ⇹m^-3FLT_2D¶Density (thermal) (sum over charge states when multiple charge […]
Density (thermal) (sum over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/density_fast(:,:) ⇹m^-3FLT_2D¶Density of fast (non-thermal) particles (sum over charge states […]
Density of fast (non-thermal) particles (sum over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/pressure(:,:) ⇹PaFLT_2D¶Pressure (thermal+non-thermal) (sum over charge states when multiple […]
Pressure (thermal+non-thermal) (sum over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/pressure_thermal(:,:) ⇹PaFLT_2D¶Pressure (thermal) associated with random motion ~average((v-average(v))^2) […]
Pressure (thermal) associated with random motion ~average((v-average(v))^2) (sum over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/pressure_fast_perpendicular(:,:) ⇹PaFLT_2D¶Fast (non-thermal) perpendicular pressure (sum over charge states […]
Fast (non-thermal) perpendicular pressure (sum over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/pressure_fast_parallel(:,:) ⇹PaFLT_2D¶Fast (non-thermal) parallel pressure (sum over charge states […]
Fast (non-thermal) parallel pressure (sum over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/rotation_frequency_tor(:,:) ⇹rad.s^-1FLT_2D¶Toroidal rotation frequency (i.e. […]
Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken) (average over charge states when multiple charge states are considered)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/velocitym.s^-1structure¶Velocity (average over charge states when multiple charge states […]
Velocity (average over charge states when multiple charge states are considered) at the position of maximum major radius on every flux surface
profiles_2d(itime)/ion(i1)/velocity/diamagnetic(:,:) ⇹m.s^-1FLT_2D¶Diamagnetic component
Diamagnetic component
1 |
|
2 |
profiles_2d(itime)/ion(i1)/velocity/parallel(:,:) ⇹m.s^-1FLT_2D¶Parallel component
Parallel component
1 |
|
2 |
profiles_2d(itime)/ion(i1)/velocity/poloidal(:,:) ⇹m.s^-1FLT_2D¶Poloidal component
Poloidal component
1 |
|
2 |
profiles_2d(itime)/ion(i1)/multiple_states_flagINT_0D¶Multiple states calculation flag : 0-Only the ‘ion’ level is […]
Multiple states calculation flag : 0-Only the ‘ion’ level is considered and the ‘state’ array of structure is empty; 1-Ion states are considered and are described in the ‘state’ array of structure
profiles_2d(itime)/ion(i1)/state(i2)AoS¶Quantities related to the different states of the species (ionisation, […]
Quantities related to the different states of the species (ionisation, energy, excitation, …)
1 |
|
profiles_2d(itime)/ion(i1)/state(i2)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle
Minimum Z of the charge state bundle
profiles_2d(itime)/ion(i1)/state(i2)/z_max ⇹eFLT_0D¶Maximum Z of the charge state bundle (equal to z_min if no bundle)
Maximum Z of the charge state bundle (equal to z_min if no bundle)
profiles_2d(itime)/ion(i1)/state(i2)/z_average ⇹eFLT_0D¶Average Z of the charge state bundle, volume averaged over the […]
Average Z of the charge state bundle, volume averaged over the plasma radius (equal to z_min if no bundle), = sum (Z*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
profiles_2d(itime)/ion(i1)/state(i2)/z_square_average ⇹eFLT_0D¶Average Z square of the charge state bundle, volume averaged […]
Average Z square of the charge state bundle, volume averaged over the plasma radius (equal to z_min squared if no bundle), = sum (Z^2*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
profiles_2d(itime)/ion(i1)/state(i2)/ionisation_potential ⇹eVFLT_0D¶Cumulative and average ionisation potential to reach a given […]
Cumulative and average ionisation potential to reach a given bundle. Defined as sum (x_z* (sum of Epot from z’=0 to z-1)), where Epot is the ionisation potential of ion Xz’+, and x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle.
profiles_2d(itime)/ion(i1)/state(i2)/labelSTR_0D¶String identifying state (e.g. […]
String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
profiles_2d(itime)/ion(i1)/state(i2)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […]
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
profiles_2d(itime)/ion(i1)/state(i2)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
profiles_2d(itime)/ion(i1)/state(i2)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […]
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
profiles_2d(itime)/ion(i1)/state(i2)/rotation_frequency_tor(:,:) ⇹rad.s^-1FLT_2D¶Toroidal rotation frequency (i.e. […]
Toroidal rotation frequency (i.e. toroidal velocity divided by the major radius at which the toroidal velocity is taken)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/state(i2)/density(:,:) ⇹m^-3FLT_2D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/state(i2)/density_thermal(:,:) ⇹m^-3FLT_2D¶Density of thermal particles
Density of thermal particles
1 |
|
2 |
profiles_2d(itime)/ion(i1)/state(i2)/density_fast(:,:) ⇹m^-3FLT_2D¶Density of fast (non-thermal) particles
Density of fast (non-thermal) particles
1 |
|
2 |
profiles_2d(itime)/ion(i1)/state(i2)/pressure(:,:) ⇹PaFLT_2D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/state(i2)/pressure_thermal(:,:) ⇹PaFLT_2D¶Pressure (thermal) associated with random motion ~average((v-average(v))^2)
Pressure (thermal) associated with random motion ~average((v-average(v))^2)
1 |
|
2 |
profiles_2d(itime)/ion(i1)/state(i2)/pressure_fast_perpendicular(:,:) ⇹PaFLT_2D¶Fast (non-thermal) perpendicular pressure
Fast (non-thermal) perpendicular pressure
1 |
|
2 |
profiles_2d(itime)/t_i_average(:,:) ⇹eVFLT_2D¶Ion temperature (averaged on states and ion species)
Ion temperature (averaged on states and ion species)
1 |
|
2 |
profiles_2d(itime)/n_i_total_over_n_e(:,:) ⇹1FLT_2D¶Ratio of total ion density (sum over species and charge states) […]
Ratio of total ion density (sum over species and charge states) over electron density. (thermal+non-thermal)
1 |
|
2 |
profiles_2d(itime)/n_i_thermal_total(:,:) ⇹m^-3FLT_2D¶Total ion thermal density (sum over species and charge states)
Total ion thermal density (sum over species and charge states)
1 |
|
2 |
profiles_2d(itime)/momentum_phi(:,:) ⇹kg.m^-1.s^-1FLT_2D¶Total plasma toroidal momentum, summed over ion species and electrons […]
Total plasma toroidal momentum, summed over ion species and electrons weighted by their density and major radius, i.e. sum_over_species(n*R*m*Vphi)
1 |
|
2 |
profiles_2d(itime)/pressure_ion_total(:,:) ⇹PaFLT_2D¶Total (sum over ion species) thermal ion pressure
Total (sum over ion species) thermal ion pressure
1 |
|
2 |
profiles_2d(itime)/pressure_thermal(:,:) ⇹PaFLT_2D¶Thermal pressure (electrons+ions)
Thermal pressure (electrons+ions)
1 |
|
2 |
profiles_2d(itime)/pressure_perpendicular(:,:) ⇹PaFLT_2D¶Total perpendicular pressure (electrons+ions, thermal+non-thermal)
Total perpendicular pressure (electrons+ions, thermal+non-thermal)
1 |
|
2 |
grid_ggd(itime)AoS¶Grid (using the Generic Grid Description), for various time slices. […]
Grid (using the Generic Grid Description), for various time slices. The timebase of this array of structure must be a subset of the ggd timebase
1 |
grid_ggd(itime)/identifierstructure¶Grid identifier
Grid identifier
This is an identifier. See ggd_identifier for the available options.
grid_ggd(itime)/pathSTR_0D¶Path of the grid, including the IDS name, in case of implicit […]
Path of the grid, including the IDS name, in case of implicit reference to a grid_ggd node described in another IDS. To be filled only if the grid is not described explicitly in this grid_ggd structure. Example syntax: #wall:2/description_ggd(1)/grid_ggd, means that the grid is located in the wall IDS, occurrence 2, with relative path description_ggd(1)/grid_ggd, using Fortran index convention (here : first index of the array)
grid_ggd(itime)/space(i1)AoS¶Set of grid spaces
Set of grid spaces
Click here for further documentation (or contact imas@iter.org if you can’t access this page).
1 |
|
grid_ggd(itime)/space(i1)/identifierstructure¶Space identifier
Space identifier
This is an identifier. See ggd_space_identifier for the available options.
grid_ggd(itime)/space(i1)/geometry_typestructure¶Type of space geometry (0: standard, 1:Fourier, >1: Fourier with […]
Type of space geometry (0: standard, 1:Fourier, >1: Fourier with periodicity)
grid_ggd(itime)/space(i1)/coordinates_type(i2)AoS¶Type of coordinates describing the physical space, for every […]
Type of coordinates describing the physical space, for every coordinate of the space. The size of this node therefore defines the dimension of the space.
This is an identifier. See coordinate_identifier for the available options.
1 |
|
Changed in version 4.0.0: Type changed from INT_1D
grid_ggd(itime)/space(i1)/coordinates_type(i2)/nameSTR_0D¶Short string identifier
Short string identifier
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)AoS¶Definition of the space objects for every dimension (from one […]
Definition of the space objects for every dimension (from one to the dimension of the highest-dimensional objects). The index correspond to 1=nodes, 2=edges, 3=faces, 4=cells/volumes, …. For every index, a collection of objects of that dimension is described.
1 |
|
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)AoS¶Set of objects for a given dimension
Set of objects for a given dimension
1 |
|
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)/boundary(i4)AoS¶Set of (n-1)-dimensional objects defining the boundary of this […]
Set of (n-1)-dimensional objects defining the boundary of this n-dimensional object
1 |
|
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)/boundary(i4)/indexINT_0D¶Index of this (n-1)-dimensional boundary object
Index of this (n-1)-dimensional boundary object
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)/boundary(i4)/neighbours(:)INT_1D¶List of indices of the n-dimensional objects adjacent to the […]
List of indices of the n-dimensional objects adjacent to the given n-dimensional object. An object can possibly have multiple neighbours on a boundary
1 |
|
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)/geometry(:)mixedFLT_1D¶Geometry data associated with the object, its detailed content […]
Geometry data associated with the object, its detailed content is defined by ../../geometry_content. Its dimension depends on the type of object, geometry and coordinate considered.
1 |
|
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)/nodes(:)INT_1D¶List of nodes forming this object (indices to objects_per_dimension(1)%object(:) […]
List of nodes forming this object (indices to objects_per_dimension(1)%object(:) in Fortran notation)
1 |
|
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)/measurem^dimensionFLT_0D¶Measure of the space object, i.e. […]
Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,…)
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/object(i3)/geometry_2d(:,:)mixedFLT_2D¶2D geometry data associated with the object. […]
2D geometry data associated with the object. Its dimension depends on the type of object, geometry and coordinate considered. Typically, the first dimension represents the object coordinates, while the second dimension would represent the values of the various degrees of freedom of the finite element attached to the object.
1 |
|
2 |
|
New in version >3.35.0.
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/geometry_contentstructure¶Content of the ../object/geometry node for this dimension
Content of the ../object/geometry node for this dimension
This is an identifier. See ggd_geometry_content_identifier for the available options.
New in version >3.33.0.
grid_ggd(itime)/space(i1)/objects_per_dimension(i2)/geometry_content/nameSTR_0D¶Short string identifier
Short string identifier
grid_ggd(itime)/grid_subset(i1)AoS¶Grid subsets
Grid subsets
1 |
|
grid_ggd(itime)/grid_subset(i1)/identifierstructure¶Grid subset identifier
Grid subset identifier
Click here for further documentation.
This is an identifier. See ggd_subset_identifier for the available options.
grid_ggd(itime)/grid_subset(i1)/identifier/nameSTR_0D¶Short string identifier
Short string identifier
grid_ggd(itime)/grid_subset(i1)/dimensionINT_0D¶Space dimension of the grid subset elements, using the convention […]
Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes
grid_ggd(itime)/grid_subset(i1)/element(i2)AoS¶Set of elements defining the grid subset. […]
Set of elements defining the grid subset. An element is defined by a combination of objects from potentially all spaces
1 |
|
grid_ggd(itime)/grid_subset(i1)/element(i2)/object(i3)AoS¶Set of objects defining the element
Set of objects defining the element
1 |
|
grid_ggd(itime)/grid_subset(i1)/element(i2)/object(i3)/spaceINT_0D¶Index of the space from which that object is taken
Index of the space from which that object is taken
grid_ggd(itime)/grid_subset(i1)/base(i2)AoS¶Set of bases for the grid subset. […]
Set of bases for the grid subset. For each base, the structure describes the projection of the base vectors on the canonical frame of the grid.
1 |
|
grid_ggd(itime)/grid_subset(i1)/base(i2)/tensor_covariant(:,:,:) ⇹mixedFLT_3D¶Covariant metric tensor, given on each element of the subgrid […]
Covariant metric tensor, given on each element of the subgrid (first dimension)
1 |
|
2 |
|
3 |
|
grid_ggd(itime)/grid_subset(i1)/base(i2)/tensor_contravariant(:,:,:) ⇹mixedFLT_3D¶Contravariant metric tensor, given on each element of the subgrid […]
Contravariant metric tensor, given on each element of the subgrid (first dimension)
1 |
|
2 |
|
3 |
|
grid_ggd(itime)/grid_subset(i1)/metricstructure¶Metric of the canonical frame onto Cartesian coordinates
Metric of the canonical frame onto Cartesian coordinates
grid_ggd(itime)/grid_subset(i1)/metric/tensor_covariant(:,:,:) ⇹mixedFLT_3D¶Covariant metric tensor, given on each element of the subgrid […]
Covariant metric tensor, given on each element of the subgrid (first dimension)
1 |
|
2 |
|
3 |
|
grid_ggd(itime)/grid_subset(i1)/metric/tensor_contravariant(:,:,:) ⇹mixedFLT_3D¶Contravariant metric tensor, given on each element of the subgrid […]
Contravariant metric tensor, given on each element of the subgrid (first dimension)
1 |
|
2 |
|
3 |
|
ggd(itime)AoS¶Plasma quantities represented using the general grid description, […]
Plasma quantities represented using the general grid description, for various time slices. The timebase of this array of structure must be a subset of the ggd_fast timebase (only if the ggd_fast array of structure is used)
1 |
ggd(itime)/electronsstructure¶Quantities related to the electrons
Quantities related to the electrons
ggd(itime)/electrons/temperature(i1)eVAoS¶Temperature, given on various grid subsets
Temperature, given on various grid subsets
1 |
|
ggd(itime)/electrons/temperature(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/temperature(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/temperature(i1)/values(:) ⇹eVFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/temperature(i1)/coefficients(:,:) ⇹eVFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/density(i1)m^-3AoS¶Density (thermal+non-thermal), given on various grid subsets
Density (thermal+non-thermal), given on various grid subsets
1 |
|
ggd(itime)/electrons/density(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/density(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/density(i1)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/density(i1)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/density_fast(i1)m^-3AoS¶Density of fast (non-thermal) particles, given on various grid […]
Density of fast (non-thermal) particles, given on various grid subsets
1 |
|
ggd(itime)/electrons/density_fast(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/density_fast(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/density_fast(i1)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/density_fast(i1)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/pressure(i1)PaAoS¶Pressure, given on various grid subsets
Pressure, given on various grid subsets
1 |
|
ggd(itime)/electrons/pressure(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/pressure(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/pressure(i1)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/pressure(i1)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/pressure_fast_perpendicular(i1)PaAoS¶Fast (non-thermal) perpendicular pressure, given on various grid […]
Fast (non-thermal) perpendicular pressure, given on various grid subsets
1 |
|
ggd(itime)/electrons/pressure_fast_perpendicular(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/pressure_fast_perpendicular(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/pressure_fast_perpendicular(i1)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/pressure_fast_perpendicular(i1)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/pressure_fast_parallel(i1)PaAoS¶Fast (non-thermal) parallel pressure, given on various grid subsets
Fast (non-thermal) parallel pressure, given on various grid subsets
1 |
|
ggd(itime)/electrons/pressure_fast_parallel(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/pressure_fast_parallel(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/pressure_fast_parallel(i1)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/pressure_fast_parallel(i1)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/velocity(i1)m.s^-1AoS¶Velocity, given on various grid subsets
Velocity, given on various grid subsets
1 |
|
ggd(itime)/electrons/velocity(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/velocity(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/velocity(i1)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/velocity(i1)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/velocity(i1)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/velocity(i1)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/velocity(i1)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/velocity(i1)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/velocity(i1)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/velocity(i1)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/electrons/velocity(i1)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/electrons/velocity(i1)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/electrons/velocity(i1)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/electrons/velocity(i1)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/electrons/velocity(i1)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/electrons/velocity(i1)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/electrons/distribution_function(i1)mixedAoS¶Distribution function, given on various grid subsets
Distribution function, given on various grid subsets
1 |
|
ggd(itime)/electrons/distribution_function(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/electrons/distribution_function(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/electrons/distribution_function(i1)/values(:) ⇹mixedFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/electrons/distribution_function(i1)/coefficients(:,:) ⇹mixedFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)AoS¶Quantities related to the different ion species
Quantities related to the different ion species
1 |
|
ggd(itime)/ion(i1)/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
ggd(itime)/ion(i1)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionisation state; lumped ions are […]
Ion charge (of the dominant ionisation state; lumped ions are allowed).
ggd(itime)/ion(i1)/labelSTR_0D¶String identifying the species (e.g. […]
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
ggd(itime)/ion(i1)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […]
Index of the corresponding neutral species in the ../../neutral array
ggd(itime)/ion(i1)/temperature(i2)eVAoS¶Temperature (average over states when multiple states are considered), […]
Temperature (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/temperature(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/temperature(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/temperature(i2)/values(:) ⇹eVFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/temperature(i2)/coefficients(:,:) ⇹eVFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/density(i2)m^-3AoS¶Density (thermal+non-thermal) (sum over states when multiple […]
Density (thermal+non-thermal) (sum over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/density(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/density(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/density(i2)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/density(i2)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/density_fast(i2)m^-3AoS¶Density of fast (non-thermal) particles (sum over states when […]
Density of fast (non-thermal) particles (sum over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/density_fast(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/density_fast(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/density_fast(i2)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/density_fast(i2)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/pressure(i2)PaAoS¶Pressure (average over states when multiple states are considered), […]
Pressure (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/pressure(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/pressure(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/pressure(i2)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/pressure(i2)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/pressure_fast_perpendicular(i2)PaAoS¶Fast (non-thermal) perpendicular pressure (average over states […]
Fast (non-thermal) perpendicular pressure (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/pressure_fast_perpendicular(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/pressure_fast_perpendicular(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/pressure_fast_perpendicular(i2)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/pressure_fast_perpendicular(i2)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/pressure_fast_parallel(i2)PaAoS¶Fast (non-thermal) parallel pressure (average over states when […]
Fast (non-thermal) parallel pressure (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/pressure_fast_parallel(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/pressure_fast_parallel(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/pressure_fast_parallel(i2)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/pressure_fast_parallel(i2)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity(i2)m.s^-1AoS¶Velocity (average over states when multiple states are considered), […]
Velocity (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/velocity(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/velocity(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/velocity(i2)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity(i2)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity(i2)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity(i2)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity(i2)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity(i2)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity(i2)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity(i2)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity(i2)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/velocity(i2)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/velocity(i2)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/ion(i1)/velocity(i2)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/ion(i1)/velocity(i2)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/velocity(i2)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/velocity_over_b_field(i2)m.s^-1AoS¶Velocity (average over states when multiple states are considered) […]
Velocity (average over states when multiple states are considered) divided by the modulus of the local magnetic field, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/velocity_over_b_field(i2)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/energy_density_kinetic(i2)J.m^-3AoS¶Kinetic energy density (sum over states when multiple states […]
Kinetic energy density (sum over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/energy_density_kinetic(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/energy_density_kinetic(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/energy_density_kinetic(i2)/values(:) ⇹J.m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/energy_density_kinetic(i2)/coefficients(:,:) ⇹J.m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […]
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
ggd(itime)/ion(i1)/state(i2)AoS¶Quantities related to the different states of the species (ionisation, […]
Quantities related to the different states of the species (ionisation, energy, excitation, …)
1 |
|
ggd(itime)/ion(i1)/state(i2)/z_min ⇹eFLT_0D¶Minimum Z of the state bundle (z_min = z_max = 0 for a neutral)
Minimum Z of the state bundle (z_min = z_max = 0 for a neutral)
ggd(itime)/ion(i1)/state(i2)/z_max ⇹eFLT_0D¶Maximum Z of the state bundle (equal to z_min if no bundle)
Maximum Z of the state bundle (equal to z_min if no bundle)
ggd(itime)/ion(i1)/state(i2)/z_average(i3)eAoS¶Average Z of the state bundle (equal to z_min if no bundle), […]
Average Z of the state bundle (equal to z_min if no bundle), = sum (Z*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/z_average(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/z_average(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/z_average(i3)/values(:) ⇹eFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/z_average(i3)/coefficients(:,:) ⇹eFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/z_square_average(i3)eAoS¶Average Z square of the state bundle (equal to z_min if no bundle), […]
Average Z square of the state bundle (equal to z_min if no bundle), = sum (Z^2*x_z) where x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/z_square_average(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/z_square_average(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/z_square_average(i3)/values(:) ⇹eFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/z_square_average(i3)/coefficients(:,:) ⇹eFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/ionisation_potential(i3)eAoS¶Cumulative and average ionisation potential to reach a given […]
Cumulative and average ionisation potential to reach a given bundle. Defined as sum (x_z* (sum of Epot from z’=0 to z-1)), where Epot is the ionisation potential of ion Xz_+, and x_z is the relative concentration of a given charge state in the bundle, i.e. sum(x_z) = 1 over the bundle, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/ionisation_potential(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/ionisation_potential(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/ionisation_potential(i3)/values(:) ⇹eFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/ionisation_potential(i3)/coefficients(:,:) ⇹eFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/labelSTR_0D¶String identifying state (e.g. […]
String identifying state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
ggd(itime)/ion(i1)/state(i2)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […]
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
ggd(itime)/ion(i1)/state(i2)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
ggd(itime)/ion(i1)/state(i2)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […]
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
ggd(itime)/ion(i1)/state(i2)/temperature(i3)eVAoS¶Temperature, given on various grid subsets
Temperature, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/temperature(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/temperature(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/temperature(i3)/values(:) ⇹eVFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/temperature(i3)/coefficients(:,:) ⇹eVFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/density(i3)m^-3AoS¶Density (thermal+non-thermal), given on various grid subsets
Density (thermal+non-thermal), given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/density(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/density(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/density(i3)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/density(i3)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/density_fast(i3)m^-3AoS¶Density of fast (non-thermal) particles, given on various grid […]
Density of fast (non-thermal) particles, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/density_fast(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/density_fast(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/density_fast(i3)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/density_fast(i3)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/pressure(i3)PaAoS¶Pressure, given on various grid subsets
Pressure, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/pressure(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/pressure(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/pressure(i3)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/pressure(i3)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/pressure_fast_perpendicular(i3)PaAoS¶Fast (non-thermal) perpendicular pressure, given on various grid […]
Fast (non-thermal) perpendicular pressure, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/pressure_fast_perpendicular(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/pressure_fast_perpendicular(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/pressure_fast_perpendicular(i3)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/pressure_fast_perpendicular(i3)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/pressure_fast_parallel(i3)PaAoS¶Fast (non-thermal) parallel pressure, given on various grid subsets
Fast (non-thermal) parallel pressure, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/pressure_fast_parallel(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/pressure_fast_parallel(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/pressure_fast_parallel(i3)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/pressure_fast_parallel(i3)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)m.s^-1AoS¶Velocity, given on various grid subsets
Velocity, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity(i3)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)m.s^-1AoS¶Velocity due to the diamagnetic drift, given on various grid […]
Velocity due to the diamagnetic drift, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_diamagnetic(i3)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)m.s^-1AoS¶Velocity due to the ExB drift, given on various grid subsets
Velocity due to the ExB drift, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/velocity_exb(i3)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/ion(i1)/state(i2)/energy_density_kinetic(i3)J.m^-3AoS¶Kinetic energy density, given on various grid subsets
Kinetic energy density, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/energy_density_kinetic(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/energy_density_kinetic(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/energy_density_kinetic(i3)/values(:) ⇹J.m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/energy_density_kinetic(i3)/coefficients(:,:) ⇹J.m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/ion(i1)/state(i2)/distribution_function(i3)mixedAoS¶Distribution function, given on various grid subsets
Distribution function, given on various grid subsets
1 |
|
ggd(itime)/ion(i1)/state(i2)/distribution_function(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/ion(i1)/state(i2)/distribution_function(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/ion(i1)/state(i2)/distribution_function(i3)/values(:) ⇹mixedFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/ion(i1)/state(i2)/distribution_function(i3)/coefficients(:,:) ⇹mixedFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)AoS¶Quantities related to the different neutral species
Quantities related to the different neutral species
1 |
|
ggd(itime)/neutral(i1)/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
ggd(itime)/neutral(i1)/labelSTR_0D¶String identifying the species (e.g. […]
String identifying the species (e.g. H, D, T, He, C, D2, DT, CD4, …)
ggd(itime)/neutral(i1)/ion_indexINT_0D¶Index of the corresponding ion species in the ../../ion array
Index of the corresponding ion species in the ../../ion array
ggd(itime)/neutral(i1)/temperature(i2)eVAoS¶Temperature (average over states when multiple states are considered), […]
Temperature (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/temperature(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/temperature(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/temperature(i2)/values(:) ⇹eVFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/temperature(i2)/coefficients(:,:) ⇹eVFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/density(i2)m^-3AoS¶Density (thermal+non-thermal) (sum over states when multiple […]
Density (thermal+non-thermal) (sum over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/density(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/density(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/density(i2)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/density(i2)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/density_fast(i2)m^-3AoS¶Density of fast (non-thermal) particles (sum over states when […]
Density of fast (non-thermal) particles (sum over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/density_fast(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/density_fast(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/density_fast(i2)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/density_fast(i2)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/pressure(i2)PaAoS¶Pressure (average over states when multiple states are considered), […]
Pressure (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/pressure(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/pressure(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/pressure(i2)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/pressure(i2)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/pressure_fast_perpendicular(i2)PaAoS¶Fast (non-thermal) perpendicular pressure (average over states […]
Fast (non-thermal) perpendicular pressure (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/pressure_fast_perpendicular(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/pressure_fast_perpendicular(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/pressure_fast_perpendicular(i2)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/pressure_fast_perpendicular(i2)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/pressure_fast_parallel(i2)PaAoS¶Fast (non-thermal) parallel pressure (average over states when […]
Fast (non-thermal) parallel pressure (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/pressure_fast_parallel(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/pressure_fast_parallel(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/pressure_fast_parallel(i2)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/pressure_fast_parallel(i2)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/velocity(i2)m.s^-1AoS¶Velocity (average over states when multiple states are considered), […]
Velocity (average over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/velocity(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/velocity(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/velocity(i2)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/velocity(i2)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/velocity(i2)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/velocity(i2)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/velocity(i2)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/velocity(i2)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/velocity(i2)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/velocity(i2)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/velocity(i2)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/velocity(i2)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/velocity(i2)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/neutral(i1)/velocity(i2)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/neutral(i1)/velocity(i2)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/velocity(i2)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/energy_density_kinetic(i2)J.m^-3AoS¶Kinetic energy density (sum over states when multiple states […]
Kinetic energy density (sum over states when multiple states are considered), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/energy_density_kinetic(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/energy_density_kinetic(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/energy_density_kinetic(i2)/values(:) ⇹J.m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/energy_density_kinetic(i2)/coefficients(:,:) ⇹J.m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […]
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
ggd(itime)/neutral(i1)/state(i2)AoS¶Quantities related to the different states of the species (energy, […]
Quantities related to the different states of the species (energy, excitation, …)
1 |
|
ggd(itime)/neutral(i1)/state(i2)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […]
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
ggd(itime)/neutral(i1)/state(i2)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
ggd(itime)/neutral(i1)/state(i2)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […]
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
ggd(itime)/neutral(i1)/state(i2)/neutral_typestructure¶Neutral type, in terms of energy. […]
Neutral type, in terms of energy. ID =1: cold; 2: thermal; 3: fast; 4: NBI
ggd(itime)/neutral(i1)/state(i2)/neutral_type/nameSTR_0D¶Short string identifier
Short string identifier
ggd(itime)/neutral(i1)/state(i2)/temperature(i3)eVAoS¶Temperature, given on various grid subsets
Temperature, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/temperature(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/temperature(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/temperature(i3)/values(:) ⇹eVFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/temperature(i3)/coefficients(:,:) ⇹eVFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/density(i3)m^-3AoS¶Density (thermal+non-thermal), given on various grid subsets
Density (thermal+non-thermal), given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/density(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/density(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/density(i3)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/density(i3)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/density_fast(i3)m^-3AoS¶Density of fast (non-thermal) particles, given on various grid […]
Density of fast (non-thermal) particles, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/density_fast(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/density_fast(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/density_fast(i3)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/density_fast(i3)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure(i3)PaAoS¶Pressure, given on various grid subsets
Pressure, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/pressure(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/pressure(i3)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure(i3)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_perpendicular(i3)PaAoS¶Fast (non-thermal) perpendicular pressure, given on various grid […]
Fast (non-thermal) perpendicular pressure, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_perpendicular(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_perpendicular(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_perpendicular(i3)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_perpendicular(i3)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_parallel(i3)PaAoS¶Fast (non-thermal) parallel pressure, given on various grid subsets
Fast (non-thermal) parallel pressure, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_parallel(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_parallel(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_parallel(i3)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/pressure_fast_parallel(i3)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)m.s^-1AoS¶Velocity, given on various grid subsets
Velocity, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity(i3)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)m.s^-1AoS¶Velocity due to the diamagnetic drift, given on various grid […]
Velocity due to the diamagnetic drift, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_diamagnetic(i3)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)m.s^-1AoS¶Velocity due to the ExB drift, given on various grid subsets
Velocity due to the ExB drift, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/velocity_exb(i3)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/neutral(i1)/state(i2)/energy_density_kinetic(i3)J.m^-3AoS¶Kinetic energy density, given on various grid subsets
Kinetic energy density, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/energy_density_kinetic(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/energy_density_kinetic(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/energy_density_kinetic(i3)/values(:) ⇹J.m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/energy_density_kinetic(i3)/coefficients(:,:) ⇹J.m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/neutral(i1)/state(i2)/distribution_function(i3)mixedAoS¶Distribution function, given on various grid subsets
Distribution function, given on various grid subsets
1 |
|
ggd(itime)/neutral(i1)/state(i2)/distribution_function(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/neutral(i1)/state(i2)/distribution_function(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/neutral(i1)/state(i2)/distribution_function(i3)/values(:) ⇹mixedFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/neutral(i1)/state(i2)/distribution_function(i3)/coefficients(:,:) ⇹mixedFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/t_i_average(i1)eVAoS¶Ion temperature (averaged on ion species), given on various grid […]
Ion temperature (averaged on ion species), given on various grid subsets
1 |
|
ggd(itime)/t_i_average(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/t_i_average(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/t_i_average(i1)/values(:) ⇹eVFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/t_i_average(i1)/coefficients(:,:) ⇹eVFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/n_i_total_over_n_e(i1)1AoS¶Ratio of total ion density (sum over ion species) over electron […]
Ratio of total ion density (sum over ion species) over electron density. (thermal+non-thermal), given on various grid subsets
1 |
|
ggd(itime)/n_i_total_over_n_e(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/n_i_total_over_n_e(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/n_i_total_over_n_e(i1)/values(:) ⇹1FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/n_i_total_over_n_e(i1)/coefficients(:,:) ⇹1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/n_i_total(i1)m^-3AoS¶Total ion density (sum over ion species and thermal+non-thermal), […]
Total ion density (sum over ion species and thermal+non-thermal), given on various grid subsets
1 |
|
ggd(itime)/n_i_total(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/n_i_total(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/n_i_total(i1)/values(:) ⇹m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/n_i_total(i1)/coefficients(:,:) ⇹m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/zeff(i1)1AoS¶Effective charge, given on various grid subsets
Effective charge, given on various grid subsets
1 |
|
ggd(itime)/zeff(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/zeff(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/zeff(i1)/values(:) ⇹1FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/zeff(i1)/coefficients(:,:) ⇹1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/pressure_thermal(i1)PaAoS¶Thermal pressure (electrons+ions), given on various grid subsets
Thermal pressure (electrons+ions), given on various grid subsets
1 |
|
ggd(itime)/pressure_thermal(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/pressure_thermal(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/pressure_thermal(i1)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/pressure_thermal(i1)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/pressure_perpendicular(i1)PaAoS¶Total perpendicular pressure (electrons+ions, thermal+non-thermal), […]
Total perpendicular pressure (electrons+ions, thermal+non-thermal), given on various grid subsets
1 |
|
ggd(itime)/pressure_perpendicular(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/pressure_perpendicular(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/pressure_perpendicular(i1)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/pressure_perpendicular(i1)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/pressure_parallel(i1)PaAoS¶Total parallel pressure (electrons+ions, thermal+non-thermal), […]
Total parallel pressure (electrons+ions, thermal+non-thermal), given on various grid subsets
1 |
|
ggd(itime)/pressure_parallel(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/pressure_parallel(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/pressure_parallel(i1)/values(:) ⇹PaFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/pressure_parallel(i1)/coefficients(:,:) ⇹PaFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_total(i1)A.m^-2AoS¶Total current density, given on various grid subsets
Total current density, given on various grid subsets
1 |
|
New in version >3.32.1.
ggd(itime)/j_total(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_total(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_total(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_total(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_total(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_total(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_total(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_total(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_total(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_total(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_total(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_total(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_total(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_total(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_total(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_total(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/r_j_total_phi(i1)A.m^-1AoS¶Toroidal component of the current density multiplied by the local […]
Toroidal component of the current density multiplied by the local major radius, given on various grid subsets
1 |
|
ggd(itime)/r_j_total_phi(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/r_j_total_phi(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/r_j_total_phi(i1)/values(:) ⇹A.m^-1FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/r_j_total_phi(i1)/coefficients(:,:) ⇹A.m^-1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_parallel(i1)A.m^-2AoS¶Current due to parallel electric and thermo-electric conductivity […]
Current due to parallel electric and thermo-electric conductivity and potential and electron temperature gradients along the field line, differences away from ambipolar flow in the parallel direction between ions and electrons (this is not the parallel component of j_total)
1 |
|
New in version >3.32.1.
ggd(itime)/j_parallel(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_parallel(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_parallel(i1)/values(:) ⇹A.m^-2FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_parallel(i1)/coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_anomalous(i1)A.m^-2AoS¶Anomalous current density, given on various grid subsets
Anomalous current density, given on various grid subsets
1 |
|
ggd(itime)/j_anomalous(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_anomalous(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_anomalous(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_anomalous(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_anomalous(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_anomalous(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_anomalous(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_anomalous(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_anomalous(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_anomalous(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_anomalous(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_anomalous(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_anomalous(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_anomalous(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_anomalous(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_anomalous(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_inertial(i1)A.m^-2AoS¶Inertial current density, given on various grid subsets
Inertial current density, given on various grid subsets
1 |
|
ggd(itime)/j_inertial(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_inertial(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_inertial(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_inertial(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_inertial(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_inertial(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_inertial(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_inertial(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_inertial(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_inertial(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_inertial(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_inertial(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_inertial(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_inertial(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_inertial(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_inertial(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_ion_neutral_friction(i1)A.m^-2AoS¶Current density due to ion neutral friction, given on various […]
Current density due to ion neutral friction, given on various grid subsets
1 |
|
ggd(itime)/j_ion_neutral_friction(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_ion_neutral_friction(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_ion_neutral_friction(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_ion_neutral_friction(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_ion_neutral_friction(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_ion_neutral_friction(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_ion_neutral_friction(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_ion_neutral_friction(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_ion_neutral_friction(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_ion_neutral_friction(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_ion_neutral_friction(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_ion_neutral_friction(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_ion_neutral_friction(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_ion_neutral_friction(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_ion_neutral_friction(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_ion_neutral_friction(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_parallel_viscosity(i1)A.m^-2AoS¶Current density due to the parallel viscosity, given on various […]
Current density due to the parallel viscosity, given on various grid subsets
1 |
|
ggd(itime)/j_parallel_viscosity(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_parallel_viscosity(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_parallel_viscosity(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_parallel_viscosity(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_parallel_viscosity(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_parallel_viscosity(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_parallel_viscosity(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_parallel_viscosity(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_parallel_viscosity(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_parallel_viscosity(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_parallel_viscosity(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_parallel_viscosity(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_parallel_viscosity(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_parallel_viscosity(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_parallel_viscosity(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_parallel_viscosity(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_perpendicular_viscosity(i1)A.m^-2AoS¶Current density due to the perpendicular viscosity, given on […]
Current density due to the perpendicular viscosity, given on various grid subsets
1 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_perpendicular_viscosity(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_perpendicular_viscosity(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_perpendicular_viscosity(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_perpendicular_viscosity(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_perpendicular_viscosity(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_perpendicular_viscosity(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_perpendicular_viscosity(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_perpendicular_viscosity(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_heat_viscosity(i1)A.m^-2AoS¶Current density due to the heat viscosity, given on various grid […]
Current density due to the heat viscosity, given on various grid subsets
1 |
|
ggd(itime)/j_heat_viscosity(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_heat_viscosity(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_heat_viscosity(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_heat_viscosity(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_heat_viscosity(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_heat_viscosity(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_heat_viscosity(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_heat_viscosity(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_heat_viscosity(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_heat_viscosity(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_heat_viscosity(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_heat_viscosity(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_heat_viscosity(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_heat_viscosity(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_heat_viscosity(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_heat_viscosity(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_pfirsch_schlueter(i1)A.m^-2AoS¶Current density due to Pfirsch-Schlüter effects, given on various […]
Current density due to Pfirsch-Schlüter effects, given on various grid subsets
1 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_pfirsch_schlueter(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_pfirsch_schlueter(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_pfirsch_schlueter(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_pfirsch_schlueter(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_pfirsch_schlueter(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_pfirsch_schlueter(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_pfirsch_schlueter(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_pfirsch_schlueter(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_diamagnetic(i1)A.m^-2AoS¶Current density due to the diamgnetic drift, given on various […]
Current density due to the diamgnetic drift, given on various grid subsets
1 |
|
ggd(itime)/j_diamagnetic(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/j_diamagnetic(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/j_diamagnetic(i1)/radial(:) ⇹A.m^-2FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_diamagnetic(i1)/radial_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_diamagnetic(i1)/diamagnetic(:) ⇹A.m^-2FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_diamagnetic(i1)/diamagnetic_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_diamagnetic(i1)/parallel(:) ⇹A.m^-2FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_diamagnetic(i1)/parallel_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_diamagnetic(i1)/poloidal(:) ⇹A.m^-2FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/j_diamagnetic(i1)/poloidal_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/j_diamagnetic(i1)/r(:) ⇹A.m^-2FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_diamagnetic(i1)/r_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/j_diamagnetic(i1)/phi(:) ⇹A.m^-2FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/j_diamagnetic(i1)/phi_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/j_diamagnetic(i1)/z(:) ⇹A.m^-2FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/j_diamagnetic(i1)/z_coefficients(:,:) ⇹A.m^-2FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/e_field(i1)V.m^-1AoS¶Electric field, given on various grid subsets
Electric field, given on various grid subsets
1 |
|
ggd(itime)/e_field(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/e_field(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/e_field(i1)/radial(:) ⇹V.m^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/e_field(i1)/radial_coefficients(:,:) ⇹V.m^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/e_field(i1)/diamagnetic(:) ⇹V.m^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/e_field(i1)/diamagnetic_coefficients(:,:) ⇹V.m^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/e_field(i1)/parallel(:) ⇹V.m^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/e_field(i1)/parallel_coefficients(:,:) ⇹V.m^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/e_field(i1)/poloidal(:) ⇹V.m^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/e_field(i1)/poloidal_coefficients(:,:) ⇹V.m^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/e_field(i1)/r(:) ⇹V.m^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/e_field(i1)/r_coefficients(:,:) ⇹V.m^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/e_field(i1)/phi(:) ⇹V.m^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/e_field(i1)/phi_coefficients(:,:) ⇹V.m^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/e_field(i1)/z(:) ⇹V.m^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/e_field(i1)/z_coefficients(:,:) ⇹V.m^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/b_field(i1)TAoS¶Magnetic field, given on various grid subsets
Magnetic field, given on various grid subsets
1 |
|
ggd(itime)/b_field(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/b_field(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/b_field(i1)/radial(:) ⇹TFLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/b_field(i1)/radial_coefficients(:,:) ⇹TFLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/b_field(i1)/diamagnetic(:) ⇹TFLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/b_field(i1)/diamagnetic_coefficients(:,:) ⇹TFLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/b_field(i1)/parallel(:) ⇹TFLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/b_field(i1)/parallel_coefficients(:,:) ⇹TFLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/b_field(i1)/poloidal(:) ⇹TFLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/b_field(i1)/poloidal_coefficients(:,:) ⇹TFLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/b_field(i1)/r(:) ⇹TFLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/b_field(i1)/r_coefficients(:,:) ⇹TFLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/b_field(i1)/phi(:) ⇹TFLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/b_field(i1)/phi_coefficients(:,:) ⇹TFLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/b_field(i1)/z(:) ⇹TFLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/b_field(i1)/z_coefficients(:,:) ⇹TFLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/a_field(i1)T.mAoS¶Magnetic vector potential, given on various grid subsets
Magnetic vector potential, given on various grid subsets
1 |
|
ggd(itime)/a_field(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/a_field(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/a_field(i1)/radial(:) ⇹T.mFLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/a_field(i1)/radial_coefficients(:,:) ⇹T.mFLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/a_field(i1)/diamagnetic(:) ⇹T.mFLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/a_field(i1)/diamagnetic_coefficients(:,:) ⇹T.mFLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/a_field(i1)/parallel(:) ⇹T.mFLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/a_field(i1)/parallel_coefficients(:,:) ⇹T.mFLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/a_field(i1)/poloidal(:) ⇹T.mFLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/a_field(i1)/poloidal_coefficients(:,:) ⇹T.mFLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/a_field(i1)/r(:) ⇹T.mFLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/a_field(i1)/r_coefficients(:,:) ⇹T.mFLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/a_field(i1)/phi(:) ⇹T.mFLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/a_field(i1)/phi_coefficients(:,:) ⇹T.mFLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/a_field(i1)/z(:) ⇹T.mFLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/a_field(i1)/z_coefficients(:,:) ⇹T.mFLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/phi_potential(i1)VAoS¶Electric potential, given on various grid subsets
Electric potential, given on various grid subsets
1 |
|
ggd(itime)/phi_potential(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/phi_potential(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/phi_potential(i1)/values(:) ⇹VFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/phi_potential(i1)/coefficients(:,:) ⇹VFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/psi(i1)WbAoS¶Poloidal flux, given on various grid subsets. […]
Poloidal flux, given on various grid subsets. Integral of magnetic field passing through a contour defined by the intersection of a flux surface passing through the point of interest and a Z=constant plane. If the integration surface is flat, the surface normal vector is in the increasing vertical coordinate direction, Z, namely upwards.
1 |
|
ggd(itime)/psi(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/psi(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/psi(i1)/values(:) ⇹WbFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/psi(i1)/coefficients(:,:) ⇹WbFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/mass_density(i1)kg.m^-3AoS¶Mass density, given on various grid subsets
Mass density, given on various grid subsets
1 |
|
ggd(itime)/mass_density(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/mass_density(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/mass_density(i1)/values(:) ⇹kg.m^-3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/mass_density(i1)/coefficients(:,:) ⇹kg.m^-3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/velocity_mass_centre(i1)m.s^-1AoS¶Velocity of the centre of mass of all the species (see equation […]
Velocity of the centre of mass of all the species (see equation 2 in the paper linked below), given on various grid subsets
Click here for further documentation.
1 |
|
ggd(itime)/velocity_mass_centre(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/velocity_mass_centre(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/velocity_mass_centre(i1)/radial(:) ⇹m.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/velocity_mass_centre(i1)/radial_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/velocity_mass_centre(i1)/diamagnetic(:) ⇹m.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/velocity_mass_centre(i1)/diamagnetic_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/velocity_mass_centre(i1)/parallel(:) ⇹m.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/velocity_mass_centre(i1)/parallel_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/velocity_mass_centre(i1)/poloidal(:) ⇹m.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/velocity_mass_centre(i1)/poloidal_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/velocity_mass_centre(i1)/r(:) ⇹m.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/velocity_mass_centre(i1)/r_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/velocity_mass_centre(i1)/phi(:) ⇹m.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/velocity_mass_centre(i1)/phi_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/velocity_mass_centre(i1)/z(:) ⇹m.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/velocity_mass_centre(i1)/z_coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/velocity_parallel_over_b_field(i1)m.s^-1.T^-1AoS¶Parallel (to magnetic field) velocity of the centre of mass of […]
Parallel (to magnetic field) velocity of the centre of mass of all the species (see equation 2 in the paper linked below), divided by the module of the local magnetic field, given on various grid subsets
Click here for further documentation.
1 |
|
ggd(itime)/velocity_parallel_over_b_field(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/velocity_parallel_over_b_field(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/velocity_parallel_over_b_field(i1)/values(:) ⇹m.s^-1.T^-1FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/velocity_parallel_over_b_field(i1)/coefficients(:,:) ⇹m.s^-1.T^-1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […]
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity(i1)s^-1AoS¶Curl of the velocity_mass_centre vector, given on various grid […]
Curl of the velocity_mass_centre vector, given on various grid subsets
1 |
|
ggd(itime)/vorticity(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/vorticity(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/vorticity(i1)/radial(:) ⇹s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity(i1)/radial_coefficients(:,:) ⇹s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity(i1)/diamagnetic(:) ⇹s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity(i1)/diamagnetic_coefficients(:,:) ⇹s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity(i1)/parallel(:) ⇹s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity(i1)/parallel_coefficients(:,:) ⇹s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity(i1)/poloidal(:) ⇹s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity(i1)/poloidal_coefficients(:,:) ⇹s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity(i1)/r(:) ⇹s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/vorticity(i1)/r_coefficients(:,:) ⇹s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/vorticity(i1)/phi(:) ⇹s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/vorticity(i1)/phi_coefficients(:,:) ⇹s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/vorticity(i1)/z(:) ⇹s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/vorticity(i1)/z_coefficients(:,:) ⇹s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/vorticity_over_r(i1)m^-1.s^-1AoS¶Vorticity divided by the local major radius, given on various […]
Vorticity divided by the local major radius, given on various grid subsets
1 |
|
ggd(itime)/vorticity_over_r(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd(itime)/vorticity_over_r(i1)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […]
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
ggd(itime)/vorticity_over_r(i1)/radial(:) ⇹m^-1.s^-1FLT_1D¶Radial component, one scalar value is provided per element in […]
Radial component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity_over_r(i1)/radial_coefficients(:,:) ⇹m^-1.s^-1FLT_2D¶Interpolation coefficients for the radial component, to be used […]
Interpolation coefficients for the radial component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity_over_r(i1)/diamagnetic(:) ⇹m^-1.s^-1FLT_1D¶Diamagnetic component, one scalar value is provided per element […]
Diamagnetic component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity_over_r(i1)/diamagnetic_coefficients(:,:) ⇹m^-1.s^-1FLT_2D¶Interpolation coefficients for the diamagnetic component, to […]
Interpolation coefficients for the diamagnetic component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity_over_r(i1)/parallel(:) ⇹m^-1.s^-1FLT_1D¶Parallel component, one scalar value is provided per element […]
Parallel component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity_over_r(i1)/parallel_coefficients(:,:) ⇹m^-1.s^-1FLT_2D¶Interpolation coefficients for the parallel component, to be […]
Interpolation coefficients for the parallel component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity_over_r(i1)/poloidal(:) ⇹m^-1.s^-1FLT_1D¶Poloidal component, one scalar value is provided per element […]
Poloidal component, one scalar value is provided per element in the grid subset.
1 |
|
ggd(itime)/vorticity_over_r(i1)/poloidal_coefficients(:,:) ⇹m^-1.s^-1FLT_2D¶Interpolation coefficients for the poloidal component, to be […]
Interpolation coefficients for the poloidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
ggd(itime)/vorticity_over_r(i1)/r(:) ⇹m^-1.s^-1FLT_1D¶Component along the major radius axis, one scalar value is provided […]
Component along the major radius axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/vorticity_over_r(i1)/r_coefficients(:,:) ⇹m^-1.s^-1FLT_2D¶Interpolation coefficients for the component along the major […]
Interpolation coefficients for the component along the major radius axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd(itime)/vorticity_over_r(i1)/phi(:) ⇹m^-1.s^-1FLT_1D¶Toroidal component, one scalar value is provided per element […]
Toroidal component, one scalar value is provided per element in the grid subset.
1 |
|
Changed in version 3.42.0: Renamed from toroidal
ggd(itime)/vorticity_over_r(i1)/phi_coefficients(:,:) ⇹m^-1.s^-1FLT_2D¶Interpolation coefficients for the toroidal component, to be […]
Interpolation coefficients for the toroidal component, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
Changed in version 3.42.0: Renamed from toroidal_coefficients
ggd(itime)/vorticity_over_r(i1)/z(:) ⇹m^-1.s^-1FLT_1D¶Component along the height axis, one scalar value is provided […]
Component along the height axis, one scalar value is provided per element in the grid subset.
1 |
|
New in version >3.37.2.
ggd(itime)/vorticity_over_r(i1)/z_coefficients(:,:) ⇹m^-1.s^-1FLT_2D¶Interpolation coefficients for the component along the height […]
Interpolation coefficients for the component along the height axis, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
1 |
|
2 |
|
New in version >3.37.2.
ggd_fast(itime)AoS¶Quantities provided at a faster sampling rate than the full ggd […]
Quantities provided at a faster sampling rate than the full ggd quantities. These are either integrated quantities or local quantities provided on a reduced set of positions. Positions and integration domains are described by a set of grid_subsets (of size 1 for a position).
1 |
ggd_fast(itime)/electronsstructure¶Quantities related to the electrons
Quantities related to the electrons
ggd_fast(itime)/electrons/temperature(i1)eVAoS¶Temperature, given at various positions (grid subset of size […]
Temperature, given at various positions (grid subset of size 1)
1 |
|
ggd_fast(itime)/electrons/temperature(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd_fast(itime)/electrons/density(i1)m^-3AoS¶Density (thermal+non-thermal), given at various positions (grid […]
Density (thermal+non-thermal), given at various positions (grid subset of size 1)
1 |
|
ggd_fast(itime)/electrons/density(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd_fast(itime)/ion(i1)AoS¶Quantities related to the different ion species
Quantities related to the different ion species
1 |
|
ggd_fast(itime)/ion(i1)/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
ggd_fast(itime)/ion(i1)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionisation state; lumped ions are […]
Ion charge (of the dominant ionisation state; lumped ions are allowed).
ggd_fast(itime)/ion(i1)/labelSTR_0D¶String identifying the species (e.g. […]
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
ggd_fast(itime)/ion(i1)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […]
Index of the corresponding neutral species in the ../../neutral array
ggd_fast(itime)/ion(i1)/content(i2)1AoS¶Particle content = total number of particles for this ion species […]
Particle content = total number of particles for this ion species in the volume of the grid subset, for various grid subsets
1 |
|
ggd_fast(itime)/ion(i1)/content(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd_fast(itime)/ion(i1)/temperature(i2)eVAoS¶Temperature (average over states when multiple states are considered), […]
Temperature (average over states when multiple states are considered), given at various positions (grid subset of size 1)
1 |
|
ggd_fast(itime)/ion(i1)/temperature(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd_fast(itime)/ion(i1)/density(i2)m^-3AoS¶Density (thermal+non-thermal) (sum over states when multiple […]
Density (thermal+non-thermal) (sum over states when multiple states are considered), given at various positions (grid subset of size 1)
1 |
|
ggd_fast(itime)/ion(i1)/density(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
ggd_fast(itime)/energy_thermal(i1)JAoS¶Plasma energy content = 3/2 \* integral over the volume of the […]
Plasma energy content = 3/2 * integral over the volume of the grid subset of the thermal pressure (summed over all species), for various grid subsets
1 |
|
ggd_fast(itime)/energy_thermal(i1)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
covariancestructure¶User defined covariance matrix. […]
User defined covariance matrix. The covariance of various quantities can be stored here, these quantities are referred to by giving their IDS path in the rows_uri list
New in version 3.40.0: lifecycle status alpha
New in version >3.39.0.
covariance/descriptionSTR_0D¶Description of this covariance matrix
Description of this covariance matrix
covariance/rows_uri(:)STR_1D¶List of URIs corresponding to the rows (1st dimension) of the […]
List of URIs corresponding to the rows (1st dimension) of the covariance matrix. If not all indices of a given node are used, they must be listed explicitly e.g. rows_uri(i) = pf_active:1/coil(i) will refer to a list of indices of the occurrence 1 of the pf_active IDS of this data entry. If the rows correspond to all indices of a given vector it is sufficient to give a single URI where this vector is denoted using the (:) implicit notation, e.g. rows_uri(1) = /grid_ggd(3)/grid_subset(2)/elements(:).
Click here for further documentation.
1 |
|
statistics(itime)AoS¶Statistics for various time slices
Statistics for various time slices
1 |
statistics(itime)/quantity_2d(i1)AoS¶Set of 2D quantities on which statistics are provided. […]
Set of 2D quantities on which statistics are provided. 2D means 1D+time dimension, so either a 1D quantity within a dynamic array of structure, or a 2D dynamic quantity outside of an array of structure. Therefore the resulting statistical value is 1D for a given statistics time slice.
1 |
|
statistics(itime)/quantity_2d(i1)/pathSTR_0D¶Path of the quantity within the IDS, following the syntax given […]
Path of the quantity within the IDS, following the syntax given in the link below
statistics(itime)/quantity_2d(i1)/statistics_type(i2)AoS¶Set of statistics types applied to the quantity
Set of statistics types applied to the quantity
1 |
|
statistics(itime)/quantity_2d(i1)/statistics_type(i2)/identifierstructure¶Identifier of the statistics type
Identifier of the statistics type
This is an identifier. See statistics_type_identifier for the available options.
statistics(itime)/quantity_2d(i1)/statistics_type(i2)/identifier/nameSTR_0D¶Short string identifier
Short string identifier
statistics(itime)/quantity_2d(i1)/statistics_type(i2)/value(:) ⇹mixedFLT_1D¶Value of the statistics for that quantity, the array corresponding […]
Value of the statistics for that quantity, the array corresponding to the first dimension of the original 2D quantity
1 |
|
statistics(itime)/quantity_2d(i1)/statistics_type(i2)/grid_subset_indexINT_0D¶Only if the statistics value is given on a different GGD grid […]
Only if the statistics value is given on a different GGD grid subset than the original quantity (e.g. if the statistics has worked over a dimension of the GGD), index of the new grid subset the statistics value is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
statistics(itime)/quantity_2d(i1)/statistics_type(i2)/grid_indexINT_0D¶Only if the statistics value is given on a different GGD grid […]
Only if the statistics value is given on a different GGD grid subset than the original quantity (e.g. if the statistics has worked over a dimension of the GGD), index of the grid used to represent the statistics value
statistics(itime)/quantity_2d(i1)/distributionstructure¶Probability distribution function of the quantity
Probability distribution function of the quantity
statistics(itime)/quantity_2d(i1)/distribution/bins(:,:) ⇹mixedFLT_2D¶Bins of quantitiy values, defined for each element (first dimension) […]
Bins of quantitiy values, defined for each element (first dimension) corresponding to the first dimension of the original 2D quantity
1 |
|
2 |
|
statistics(itime)/quantity_2d(i1)/distribution/probability(:,:) ⇹1FLT_2D¶Probability to have a value of the quantity between bins(n) and […]
Probability to have a value of the quantity between bins(n) and bins(n+1) (thus the size of its second dimension is the size of the second dimension of the bins array - 1). The first dimension correspond to the first dimension of the original 2D quantity
1 |
|
2 |
|
statistics(itime)/uq_input_2d(i1)AoS¶If the statistics are based on an uncertainty quantification […]
If the statistics are based on an uncertainty quantification process, set of 2D input quantities that are varied
1 |
|
statistics(itime)/uq_input_2d(i1)/pathSTR_0D¶Path of the quantity within the IDS, following the syntax given […]
Path of the quantity within the IDS, following the syntax given in the link below
statistics(itime)/uq_input_2d(i1)/distributionstructure¶Probability distribution function of the quantity
Probability distribution function of the quantity
statistics(itime)/uq_input_2d(i1)/distribution/bins(:,:) ⇹mixedFLT_2D¶Bins of quantitiy values, defined for each element (first dimension) […]
Bins of quantitiy values, defined for each element (first dimension) corresponding to the first dimension of the original 2D quantity
1 |
|
2 |
|
statistics(itime)/uq_input_2d(i1)/distribution/probability(:,:) ⇹1FLT_2D¶Probability to have a value of the quantity between bins(n) and […]
Probability to have a value of the quantity between bins(n) and bins(n+1) (thus the size of its second dimension is the size of the second dimension of the bins array - 1). The first dimension correspond to the first dimension of the original 2D quantity
1 |
|
2 |
|