distributions¶
Distribution function(s) of one or many particle species. This structure is specifically designed to handle non-Maxwellian distribution function generated during heating and current drive, typically solved using a Fokker-Planck calculation perturbed by a heating scheme (e.g. IC, EC, LH, NBI, or alpha heating) and then relaxed by Coloumb collisions.
Maximum occurrences (MDS+ backend only): 8
New in version 3.2.1: lifecycle status alpha
Changed in version 4.2.0.
ids_propertiesstructure¶
See common IDS structure reference: ids_properties.
distribution(i1)AoS¶Set of distribution functions. […] (click to expand)
Set of distribution functions. Every distribution function has to be associated with only one particle species, specified in distri_vec/species/, but there could be multiple distribution function for each species. In this case, the fast particle populations should be superposed
Appendable by appender actor: yes
Maximum occurrences (MDS+ backend only): 33
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distribution(i1)/wave(i2)AoS¶List all waves affecting the distribution, identified as in waves/coherent_wave(i)/identifier […] (click to expand)
List all waves affecting the distribution, identified as in waves/coherent_wave(i)/identifier in the waves IDS
Maximum occurrences (MDS+ backend only): 10
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distribution(i1)/wave(i2)/typestructure¶Wave/antenna type. […] (click to expand)
Wave/antenna type. index=1 for name=EC; index=2 for name=IC; index=3 for name=LH
This is an identifier. See wave_identifier for the available options.
distribution(i1)/wave(i2)/antenna_nameSTR_0D¶Name of the antenna that launches this wave. […] (click to expand)
Name of the antenna that launches this wave. Corresponds to the name specified in antennas/ec(i)/name, or antennas/ic(i)/name or antennas/lh(i)/name (depends of antenna/wave type) in the ANTENNAS IDS.
distribution(i1)/process(i2)AoS¶List all processes (NBI units, fusion reactions, …) affecting […] (click to expand)
List all processes (NBI units, fusion reactions, …) affecting the distribution, identified as in distribution_sources/source(i)/process in the DISTRIBUTION_SOURCES IDS
Maximum occurrences (MDS+ backend only): 33
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distribution(i1)/process(i2)/typestructure¶Process type
Process type
This is an identifier. See distribution_source_identifier for the available options.
distribution(i1)/process(i2)/reactant_energystructure¶For nuclear reaction source, energy of the reactants. […] (click to expand)
For nuclear reaction source, energy of the reactants. index = 0 for a sum over all energies; index = 1 for thermal-thermal; index = 2 for beam-beam; index = 3 for beam-thermal
distribution(i1)/process(i2)/reactant_energy/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/process(i2)/nbi_energystructure¶For NBI source, energy of the accelerated species considered. […] (click to expand)
For NBI source, energy of the accelerated species considered. index = 0 for a sum over all energies; index = 1 for full energiy; index = 2 for half energy; index = 3 for third energy
distribution(i1)/gyro_typeINT_0D¶Defines how to interpret the spatial coordinates: 1 = given at […] (click to expand)
Defines how to interpret the spatial coordinates: 1 = given at the actual particle birth point; 2 =given at the gyro centre of the birth point
distribution(i1)/speciesstructure¶Species described by this distribution
Species described by this distribution
distribution(i1)/species/typestructure¶Species type. […] (click to expand)
Species type. index=1 for electron; index=2 for ion species in a single/average state (refer to ion structure); index=3 for ion species in a particular state (refer to ion/state structure); index=4 for neutral species in a single/average state (refer to neutral structure); index=5 for neutral species in a particular state (refer to neutral/state structure); index=6 for neutron; index=7 for photon
This is an identifier. See species_reference_identifier for the available options.
distribution(i1)/species/ionstructure¶Description of the ion or neutral species, used if type/index […] (click to expand)
Description of the ion or neutral species, used if type/index = 2 or 3
distribution(i1)/species/ion/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
Maximum occurrences (MDS+ backend only): 5
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distribution(i1)/species/ion/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed)
distribution(i1)/species/ion/nameSTR_0D¶String identifying ion (e.g. […] (click to expand)
String identifying ion (e.g. H+, D+, T+, He+2, C+, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/species/ion/statestructure¶Quantities related to the different states of the species (ionization, […] (click to expand)
Quantities related to the different states of the species (ionization, energy, excitation, …)
distribution(i1)/species/ion/state/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/species/ion/state/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)
distribution(i1)/species/ion/state/nameSTR_0D¶String identifying ion state (e.g. […] (click to expand)
String identifying ion state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/species/ion/state/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/species/neutralstructure¶Description of the neutral species, used if type/index = 4 or […] (click to expand)
Description of the neutral species, used if type/index = 4 or 5
distribution(i1)/species/neutral/element(i2)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
Maximum occurrences (MDS+ backend only): 5
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distribution(i1)/species/neutral/nameSTR_0D¶String identifying neutral (e.g. […] (click to expand)
String identifying neutral (e.g. H, D, T, He, C, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/species/neutral/statestructure¶State of the species (energy, excitation, …)
State of the species (energy, excitation, …)
distribution(i1)/species/neutral/state/nameSTR_0D¶String identifying neutral state
String identifying neutral state
Changed in version 3.42.0: Renamed from label
distribution(i1)/species/neutral/state/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/species/neutral/state/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/species/neutral/state/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/species/neutral/state/neutral_typestructure¶Neutral type, in terms of energy. […] (click to expand)
Neutral type, in terms of energy. ID =1: cold; 2: thermal; 3: fast; 4: NBI
This is an identifier. See neutrals_identifier for the available options.
distribution(i1)/species/neutral/state/neutral_type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/global_quantities(itime)AoS¶Global quantities (integrated over plasma volume for moments […] (click to expand)
Global quantities (integrated over plasma volume for moments of the distribution, collisional exchange and source terms), for various time slices
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distribution(i1)/global_quantities(itime)/particles_n ⇹1FLT_0D¶Number of particles in the distribution, i.e. […] (click to expand)
Number of particles in the distribution, i.e. the volume integral of the density (note: this is the number of real particles and not markers)
distribution(i1)/global_quantities(itime)/particles_fast_n ⇹1FLT_0D¶Number of fast particles in the distribution, i.e. […] (click to expand)
Number of fast particles in the distribution, i.e. the volume integral of the density (note: this is the number of real particles and not markers)
distribution(i1)/global_quantities(itime)/energy ⇹JFLT_0D¶Total energy in the distribution
Total energy in the distribution
distribution(i1)/global_quantities(itime)/energy_fast ⇹JFLT_0D¶Total energy of the fast particles in the distribution
Total energy of the fast particles in the distribution
distribution(i1)/global_quantities(itime)/energy_fast_parallel ⇹JFLT_0D¶Parallel energy of the fast particles in the distribution
Parallel energy of the fast particles in the distribution
distribution(i1)/global_quantities(itime)/torque_tor_j_radial ⇹N.mFLT_0D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
distribution(i1)/global_quantities(itime)/current_phi ⇹AFLT_0D¶Toroidal current driven by the distribution
Toroidal current driven by the distribution
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/global_quantities(itime)/power_first_orbit ⇹WFLT_0D¶Power loss due to first orbit losses
Power loss due to first orbit losses
New in version >4.0.0.
distribution(i1)/global_quantities(itime)/power_rotation ⇹WFLT_0D¶Power going to plasma rotation. […] (click to expand)
Power going to plasma rotation. This power goes into sustaining the plasma rotation rather than heating the plasma. This is given because the injection energy in the rotating plasma frame is (assuming rotation in the same direction of the NB injection) lower than in the lab-frame.
New in version >4.0.0.
distribution(i1)/global_quantities(itime)/power_charge_exchange ⇹WFLT_0D¶Power loss due to Charge Exchange loss of fast ions
Power loss due to Charge Exchange loss of fast ions
New in version >4.0.0.
distribution(i1)/global_quantities(itime)/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/global_quantities(itime)/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/global_quantities(itime)/collisions/electrons/power_thermal ⇹WFLT_0D¶Collisional power to the thermal particle population
Collisional power to the thermal particle population
distribution(i1)/global_quantities(itime)/collisions/electrons/power_fast ⇹WFLT_0D¶Collisional power to the fast particle population
Collisional power to the fast particle population
distribution(i1)/global_quantities(itime)/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
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distribution(i1)/global_quantities(itime)/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
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distribution(i1)/global_quantities(itime)/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/power_thermal ⇹WFLT_0D¶Collisional power to the thermal particle population
Collisional power to the thermal particle population
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/power_fast ⇹WFLT_0D¶Collisional power to the fast particle population
Collisional power to the fast particle population
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/torque_thermal_phi ⇹N.mFLT_0D¶Collisional toroidal torque to the thermal particle population
Collisional toroidal torque to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/torque_fast_phi ⇹N.mFLT_0D¶Collisional toroidal torque to the fast particle population
Collisional toroidal torque to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
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distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/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)
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/power_thermal ⇹WFLT_0D¶Collisional power to the thermal particle population
Collisional power to the thermal particle population
distribution(i1)/global_quantities(itime)/collisions/ion(i2)/state(i3)/power_fast ⇹WFLT_0D¶Collisional power to the fast particle population
Collisional power to the fast particle population
distribution(i1)/global_quantities(itime)/thermalizationstructure¶Volume integrated source of thermal particles, momentum and energy […] (click to expand)
Volume integrated source of thermal particles, momentum and energy due to thermalization. Here thermalization refers to non-thermal particles, sufficiently assimilated to the thermal background to be re-categorized as thermal particles. Note that this source may also be negative if thermal particles are being accelerated such that they form a distinct non-thermal contribution, e.g. due run-away of RF interactions.
Changed in version 4.0.0: Renamed from thermalisation
distribution(i1)/global_quantities(itime)/thermalization/particles ⇹s^-1FLT_0D¶Source rate of thermal particles due to the thermalization of […] (click to expand)
Source rate of thermal particles due to the thermalization of fast particles
distribution(i1)/global_quantities(itime)/source(i2)AoS¶Set of volume integrated sources and sinks of particles, momentum […] (click to expand)
Set of volume integrated sources and sinks of particles, momentum and energy included in the Fokker-Planck modelling, related to the various waves or particle source processes affecting the distribution
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distribution(i1)/global_quantities(itime)/source(i2)/identifierstructure¶Identifier of the wave or particle source process, defined respectively […] (click to expand)
Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distribution(i1)/global_quantities(itime)/source(i2)/identifier/typestructure¶Type of the source term. […] (click to expand)
Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distribution(i1)/global_quantities(itime)/source(i2)/identifier/type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/global_quantities(itime)/source(i2)/particles ⇹s^-1FLT_0D¶Particle source rate
Particle source rate
distribution(i1)/profiles_1d(itime)AoS¶Radial profiles (flux surface averaged quantities) for various […] (click to expand)
Radial profiles (flux surface averaged quantities) for various time slices
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distribution(i1)/profiles_1d(itime)/gridstructure¶Radial grid
Radial grid
distribution(i1)/profiles_1d(itime)/grid/rho_tor_norm(:) ⇹1FLT_1D¶Normalized toroidal flux coordinate. […] (click to expand)
Normalized 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)
Alternatives for this coordinate
The following items may be used as a coordinate instead of rho_tor_norm:
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distribution(i1)/profiles_1d(itime)/grid/rho_tor(:) ⇹mFLT_1D¶Toroidal flux coordinate = sqrt(phi/(pi\*b0)), where the toroidal […] (click to expand)
Toroidal flux coordinate = sqrt(phi/(pi*b0)), where the toroidal magnetic field, b0, corresponds to that stored in vacuum_toroidal_field/b0 and pi can be found in the IMAS constants
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distribution(i1)/profiles_1d(itime)/grid/rho_pol_norm(:) ⇹1FLT_1D¶Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) […] (click to expand)
Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) / (psi(LCFS)-psi(magnetic_axis)))
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distribution(i1)/profiles_1d(itime)/grid/psi(:) ⇹WbFLT_1D¶Poloidal magnetic flux. […] (click to expand)
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.
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distribution(i1)/profiles_1d(itime)/grid/volume(:) ⇹m^3FLT_1D¶Volume enclosed inside the magnetic surface
Volume enclosed inside the magnetic surface
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distribution(i1)/profiles_1d(itime)/grid/area(:) ⇹m^2FLT_1D¶Cross-sectional area of the flux surface
Cross-sectional area of the flux surface
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distribution(i1)/profiles_1d(itime)/grid/surface(:) ⇹m^2FLT_1D¶Surface area of the toroidal flux surface
Surface area of the toroidal flux surface
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distribution(i1)/profiles_1d(itime)/grid/psi_magnetic_axis ⇹WbFLT_0D¶Value of the poloidal magnetic flux at the magnetic axis (useful […] (click to expand)
Value of the poloidal magnetic flux at the magnetic axis (useful to normalize the psi array values when the radial grid doesn’t go from the magnetic axis to the plasma boundary)
distribution(i1)/profiles_1d(itime)/grid/psi_boundary ⇹WbFLT_0D¶Value of the poloidal magnetic flux at the plasma boundary (useful […] (click to expand)
Value of the poloidal magnetic flux at the plasma boundary (useful to normalize the psi array values when the radial grid doesn’t go from the magnetic axis to the plasma boundary)
distribution(i1)/profiles_1d(itime)/fast_filterstructure¶Description of how the fast and the thermal particle populations […] (click to expand)
Description of how the fast and the thermal particle populations are separated
distribution(i1)/profiles_1d(itime)/fast_filter/methodstructure¶Method used to separate the fast and thermal particle population […] (click to expand)
Method used to separate the fast and thermal particle population (indices TBD)
distribution(i1)/profiles_1d(itime)/fast_filter/method/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/profiles_1d(itime)/fast_filter/energy(:) ⇹eVFLT_1D¶Energy at which the fast and thermal particle populations were […] (click to expand)
Energy at which the fast and thermal particle populations were separated, as a function of radius
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distribution(i1)/profiles_1d(itime)/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
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distribution(i1)/profiles_1d(itime)/density_fast(:) ⇹m^-3FLT_1D¶Density of fast particles
Density of fast particles
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distribution(i1)/profiles_1d(itime)/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
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distribution(i1)/profiles_1d(itime)/pressure_fast(:) ⇹PaFLT_1D¶Pressure of fast particles
Pressure of fast particles
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distribution(i1)/profiles_1d(itime)/pressure_fast_parallel(:) ⇹PaFLT_1D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
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distribution(i1)/profiles_1d(itime)/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
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New in version >4.0.0.
distribution(i1)/profiles_1d(itime)/current_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
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Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_1d(itime)/current_fast_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
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Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_1d(itime)/torque_phi_j_radial(:) ⇹N.m^-2FLT_1D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
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Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_1d(itime)/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_1d(itime)/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_1d(itime)/collisions/electrons/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
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distribution(i1)/profiles_1d(itime)/collisions/electrons/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
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distribution(i1)/profiles_1d(itime)/collisions/electrons/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
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Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/collisions/electrons/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
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Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
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distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
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distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
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distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
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distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
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Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
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Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
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distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
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distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
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distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
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Changed in version 3.42.0: Renamed from torque_themal_tor
distribution(i1)/profiles_1d(itime)/collisions/ion(i2)/state(i3)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
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Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/thermalizationstructure¶Flux surface averaged source of thermal particles, momentum and […] (click to expand)
Flux surface averaged source of thermal particles, momentum and energy due to thermalization. Here thermalization refers to non-thermal particles, sufficiently assimilated to the thermal background to be re-categorized as thermal particles. Note that this source may also be negative if thermal particles are being accelerated such that they form a distinct non-thermal contribution, e.g. due run-away of RF interactions.
Changed in version 4.0.0: Renamed from thermalisation
distribution(i1)/profiles_1d(itime)/thermalization/particles(:) ⇹s^-1.m^-3FLT_1D¶Source rate of thermal particle density due to the thermalization […] (click to expand)
Source rate of thermal particle density due to the thermalization of fast particles
1 |
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distribution(i1)/profiles_1d(itime)/thermalization/energy(:) ⇹W.m^-3FLT_1D¶Source rate of energy density within the thermal particle population […] (click to expand)
Source rate of energy density within the thermal particle population due to the thermalization of fast particles
1 |
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distribution(i1)/profiles_1d(itime)/thermalization/momentum_phi(:) ⇹N.m^-2FLT_1D¶Source rate of toroidal angular momentum density within the thermal […] (click to expand)
Source rate of toroidal angular momentum density within the thermal particle population due to the thermalisation of fast particles
1 |
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Changed in version 3.42.0: Renamed from momentum_tor
distribution(i1)/profiles_1d(itime)/source(i2)AoS¶Set of flux averaged sources and sinks of particles, momentum […] (click to expand)
Set of flux averaged sources and sinks of particles, momentum and energy included in the Fokker-Planck modelling, related to the various waves or particle source processes affecting the distribution
1 |
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distribution(i1)/profiles_1d(itime)/source(i2)/identifierstructure¶Identifier of the wave or particle source process, defined respectively […] (click to expand)
Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distribution(i1)/profiles_1d(itime)/source(i2)/identifier/typestructure¶Type of the source term. […] (click to expand)
Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distribution(i1)/profiles_1d(itime)/source(i2)/identifier/type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/profiles_1d(itime)/source(i2)/particles(:) ⇹s^-1.m^-3FLT_1D¶Source rate of thermal particle density
Source rate of thermal particle density
1 |
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distribution(i1)/profiles_1d(itime)/source(i2)/energy(:) ⇹W.m^-3FLT_1D¶Source rate of energy density
Source rate of energy density
1 |
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distribution(i1)/profiles_1d(itime)/source(i2)/momentum_phi(:) ⇹N.m^-2FLT_1D¶Source rate of toroidal angular momentum density
Source rate of toroidal angular momentum density
1 |
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Changed in version 3.42.0: Renamed from _tor
distribution(i1)/profiles_1d(itime)/trappedstructure¶Flux surface averaged profile evaluated using the trapped particle […] (click to expand)
Flux surface averaged profile evaluated using the trapped particle part of the distribution.
distribution(i1)/profiles_1d(itime)/trapped/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
1 |
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distribution(i1)/profiles_1d(itime)/trapped/density_fast(:) ⇹m^-3FLT_1D¶Density of fast particles
Density of fast particles
1 |
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distribution(i1)/profiles_1d(itime)/trapped/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
1 |
|
distribution(i1)/profiles_1d(itime)/trapped/pressure_fast(:) ⇹PaFLT_1D¶Pressure of fast particles
Pressure of fast particles
1 |
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distribution(i1)/profiles_1d(itime)/trapped/pressure_fast_parallel(:) ⇹PaFLT_1D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
1 |
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distribution(i1)/profiles_1d(itime)/trapped/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
1 |
|
New in version >4.0.0.
distribution(i1)/profiles_1d(itime)/trapped/current_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
1 |
|
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_1d(itime)/trapped/current_fast_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
1 |
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Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_1d(itime)/trapped/torque_phi_j_radial(:) ⇹N.m^-2FLT_1D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
1 |
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Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_1d(itime)/trapped/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_1d(itime)/trapped/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_1d(itime)/trapped/collisions/electrons/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
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distribution(i1)/profiles_1d(itime)/trapped/collisions/electrons/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
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distribution(i1)/profiles_1d(itime)/trapped/collisions/electrons/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/trapped/collisions/electrons/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
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Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
1 |
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distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
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distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
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distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
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distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
1 |
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distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
|
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
|
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/trapped/collisions/ion(i2)/state(i3)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/trapped/source(i2)AoS¶Set of flux averaged sources and sinks of particles, momentum […] (click to expand)
Set of flux averaged sources and sinks of particles, momentum and energy included in the Fokker-Planck modelling, related to the various waves or particle source processes affecting the distribution
1 |
|
distribution(i1)/profiles_1d(itime)/trapped/source(i2)/identifierstructure¶Identifier of the wave or particle source process, defined respectively […] (click to expand)
Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distribution(i1)/profiles_1d(itime)/trapped/source(i2)/identifier/typestructure¶Type of the source term. […] (click to expand)
Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distribution(i1)/profiles_1d(itime)/trapped/source(i2)/identifier/type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/profiles_1d(itime)/trapped/source(i2)/particles(:) ⇹s^-1.m^-3FLT_1D¶Source rate of thermal particle density
Source rate of thermal particle density
1 |
|
distribution(i1)/profiles_1d(itime)/trapped/source(i2)/energy(:) ⇹W.m^-3FLT_1D¶Source rate of energy density
Source rate of energy density
1 |
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distribution(i1)/profiles_1d(itime)/trapped/source(i2)/momentum_phi(:) ⇹N.m^-2FLT_1D¶Source rate of toroidal angular momentum density
Source rate of toroidal angular momentum density
1 |
|
Changed in version 3.42.0: Renamed from momentum_tor
distribution(i1)/profiles_1d(itime)/co_passingstructure¶Flux surface averaged profile evaluated using the co-passing […] (click to expand)
Flux surface averaged profile evaluated using the co-passing particle part of the distribution.
distribution(i1)/profiles_1d(itime)/co_passing/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
1 |
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distribution(i1)/profiles_1d(itime)/co_passing/density_fast(:) ⇹m^-3FLT_1D¶Density of fast particles
Density of fast particles
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/pressure_fast(:) ⇹PaFLT_1D¶Pressure of fast particles
Pressure of fast particles
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/pressure_fast_parallel(:) ⇹PaFLT_1D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
1 |
|
New in version >4.0.0.
distribution(i1)/profiles_1d(itime)/co_passing/current_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
1 |
|
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_1d(itime)/co_passing/current_fast_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
1 |
|
Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_1d(itime)/co_passing/torque_phi_j_radial(:) ⇹N.m^-2FLT_1D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
1 |
|
Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_1d(itime)/co_passing/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_1d(itime)/co_passing/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_1d(itime)/co_passing/collisions/electrons/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/electrons/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/electrons/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/co_passing/collisions/electrons/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/co_passing/collisions/ion(i2)/state(i3)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/co_passing/source(i2)AoS¶Set of flux averaged sources and sinks of particles, momentum […] (click to expand)
Set of flux averaged sources and sinks of particles, momentum and energy included in the Fokker-Planck modelling, related to the various waves or particle source processes affecting the distribution
1 |
|
distribution(i1)/profiles_1d(itime)/co_passing/source(i2)/identifierstructure¶Identifier of the wave or particle source process, defined respectively […] (click to expand)
Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distribution(i1)/profiles_1d(itime)/co_passing/source(i2)/identifier/typestructure¶Type of the source term. […] (click to expand)
Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distribution(i1)/profiles_1d(itime)/co_passing/source(i2)/identifier/type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/profiles_1d(itime)/co_passing/source(i2)/particles(:) ⇹s^-1.m^-3FLT_1D¶Source rate of thermal particle density
Source rate of thermal particle density
1 |
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distribution(i1)/profiles_1d(itime)/co_passing/source(i2)/energy(:) ⇹W.m^-3FLT_1D¶Source rate of energy density
Source rate of energy density
1 |
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distribution(i1)/profiles_1d(itime)/co_passing/source(i2)/momentum_phi(:) ⇹N.m^-2FLT_1D¶Source rate of toroidal angular momentum density
Source rate of toroidal angular momentum density
1 |
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Changed in version 3.42.0: Renamed from momentum_tor
distribution(i1)/profiles_1d(itime)/counter_passingstructure¶Flux surface averaged profile evaluated using the counter-passing […] (click to expand)
Flux surface averaged profile evaluated using the counter-passing particle part of the distribution.
distribution(i1)/profiles_1d(itime)/counter_passing/density(:) ⇹m^-3FLT_1D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/density_fast(:) ⇹m^-3FLT_1D¶Density of fast particles
Density of fast particles
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/pressure(:) ⇹PaFLT_1D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/pressure_fast(:) ⇹PaFLT_1D¶Pressure of fast particles
Pressure of fast particles
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/pressure_fast_parallel(:) ⇹PaFLT_1D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/pressure_fast_perpendicular(:) ⇹PaFLT_1D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
1 |
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New in version >4.0.0.
distribution(i1)/profiles_1d(itime)/counter_passing/current_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
1 |
|
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_1d(itime)/counter_passing/current_fast_phi(:) ⇹A.m^-2FLT_1D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
1 |
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Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_1d(itime)/counter_passing/torque_phi_j_radial(:) ⇹N.m^-2FLT_1D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
1 |
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Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_1d(itime)/counter_passing/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/electrons/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/electrons/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/electrons/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
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Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/electrons/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
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Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
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Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
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Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/power_thermal(:) ⇹W.m^-3FLT_1D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/power_fast(:) ⇹W.m^-3FLT_1D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/torque_thermal_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
1 |
|
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_1d(itime)/counter_passing/collisions/ion(i2)/state(i3)/torque_fast_phi(:) ⇹N.m^-2FLT_1D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
1 |
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Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_1d(itime)/counter_passing/source(i2)AoS¶Set of flux averaged sources and sinks of particles, momentum […] (click to expand)
Set of flux averaged sources and sinks of particles, momentum and energy included in the Fokker-Planck modelling, related to the various waves or particle source processes affecting the distribution
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/source(i2)/identifierstructure¶Identifier of the wave or particle source process, defined respectively […] (click to expand)
Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distribution(i1)/profiles_1d(itime)/counter_passing/source(i2)/identifier/typestructure¶Type of the source term. […] (click to expand)
Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distribution(i1)/profiles_1d(itime)/counter_passing/source(i2)/identifier/type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/profiles_1d(itime)/counter_passing/source(i2)/particles(:) ⇹s^-1.m^-3FLT_1D¶Source rate of thermal particle density
Source rate of thermal particle density
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/source(i2)/energy(:) ⇹W.m^-3FLT_1D¶Source rate of energy density
Source rate of energy density
1 |
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distribution(i1)/profiles_1d(itime)/counter_passing/source(i2)/momentum_phi(:) ⇹N.m^-2FLT_1D¶Source rate of toroidal angular momentum density
Source rate of toroidal angular momentum density
1 |
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Changed in version 3.42.0: Renamed from momentum_tor
distribution(i1)/profiles_2d(itime)AoS¶2D profiles in the poloidal plane for various time slices
2D profiles in the poloidal plane for various time slices
1 |
distribution(i1)/profiles_2d(itime)/gridstructure¶Grid. […] (click to expand)
Grid. The grid has to be rectangular in a pair of coordinates, as specified in type
distribution(i1)/profiles_2d(itime)/grid/typestructure¶Grid type: index=0: Rectangular grid in the (R,Z) coordinates; […] (click to expand)
Grid type: index=0: Rectangular grid in the (R,Z) coordinates; index=1: Rectangular grid in the (radial, theta_geometric) coordinates; index=2: Rectangular grid in the (radial, theta_straight) coordinates.
distribution(i1)/profiles_2d(itime)/grid/type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/profiles_2d(itime)/grid/theta_straight(:) ⇹radFLT_1D¶Straight field line poloidal angle
Straight field line poloidal angle
1 |
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distribution(i1)/profiles_2d(itime)/grid/theta_geometric(:) ⇹radFLT_1D¶Geometrical poloidal angle
Geometrical poloidal angle
1 |
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distribution(i1)/profiles_2d(itime)/grid/rho_tor_norm(:) ⇹1FLT_1D¶Normalized toroidal flux coordinate. […] (click to expand)
Normalized 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)
1 |
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distribution(i1)/profiles_2d(itime)/grid/rho_tor(:) ⇹mFLT_1D¶Toroidal flux coordinate. […] (click to expand)
Toroidal flux coordinate. The toroidal field used in its definition is indicated under vacuum_toroidal_field/b0
1 |
distribution(i1)/profiles_2d(itime)/grid/psi(:) ⇹WbFLT_1D¶Poloidal magnetic flux
Poloidal magnetic flux
1 |
distribution(i1)/profiles_2d(itime)/grid/volume(:) ⇹m^3FLT_1D¶Volume enclosed inside the magnetic surface
Volume enclosed inside the magnetic surface
1 |
distribution(i1)/profiles_2d(itime)/r(:,:) ⇹mFLT_2D¶Major radius (if 2D grid is not given in (R,Z))
Major radius (if 2D grid is not given in (R,Z))
1 |
|
2 |
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New in version >4.1.1.
distribution(i1)/profiles_2d(itime)/z(:,:) ⇹mFLT_2D¶Height (if 2D grid is not given in (R,Z))
Height (if 2D grid is not given in (R,Z))
1 |
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2 |
|
New in version >4.1.1.
distribution(i1)/profiles_2d(itime)/density(:,:) ⇹m^-3FLT_2D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/density_fast(:,:) ⇹m^-3FLT_2D¶Density of fast particles
Density of fast particles
distribution(i1)/profiles_2d(itime)/pressure(:,:) ⇹PaFLT_2D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/pressure_fast(:,:) ⇹PaFLT_2D¶Pressure of fast particles
Pressure of fast particles
distribution(i1)/profiles_2d(itime)/pressure_fast_parallel(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
distribution(i1)/profiles_2d(itime)/pressure_fast_perpendicular(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
New in version >4.0.0.
distribution(i1)/profiles_2d(itime)/current_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_2d(itime)/current_fast_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_2d(itime)/torque_phi_j_radial(:,:) ⇹N.m^-2FLT_2D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_2d(itime)/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_2d(itime)/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_2d(itime)/collisions/electrons/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/collisions/electrons/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/collisions/electrons/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/collisions/electrons/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
1 |
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distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
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distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
1 |
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distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/collisions/ion(i2)/state(i3)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/trappedstructure¶Flux surface averaged profile evaluated using the trapped particle […] (click to expand)
Flux surface averaged profile evaluated using the trapped particle part of the distribution.
distribution(i1)/profiles_2d(itime)/trapped/density(:,:) ⇹m^-3FLT_2D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/trapped/density_fast(:,:) ⇹m^-3FLT_2D¶Density of fast particles
Density of fast particles
distribution(i1)/profiles_2d(itime)/trapped/pressure(:,:) ⇹PaFLT_2D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/trapped/pressure_fast(:,:) ⇹PaFLT_2D¶Pressure of fast particles
Pressure of fast particles
distribution(i1)/profiles_2d(itime)/trapped/pressure_fast_parallel(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
distribution(i1)/profiles_2d(itime)/trapped/pressure_fast_perpendicular(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
New in version >4.0.0.
distribution(i1)/profiles_2d(itime)/trapped/current_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_2d(itime)/trapped/current_fast_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_2d(itime)/trapped/torque_phi_j_radial(:,:) ⇹N.m^-2FLT_2D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_2d(itime)/trapped/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_2d(itime)/trapped/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_2d(itime)/trapped/collisions/electrons/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/trapped/collisions/electrons/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/trapped/collisions/electrons/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/trapped/collisions/electrons/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
1 |
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distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
1 |
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distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/torque_fast_tor(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
distribution(i1)/profiles_2d(itime)/trapped/collisions/ion(i2)/state(i3)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/co_passingstructure¶Flux surface averaged profile evaluated using the co-passing […] (click to expand)
Flux surface averaged profile evaluated using the co-passing particle part of the distribution.
distribution(i1)/profiles_2d(itime)/co_passing/density(:,:) ⇹m^-3FLT_2D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/co_passing/density_fast(:,:) ⇹m^-3FLT_2D¶Density of fast particles
Density of fast particles
distribution(i1)/profiles_2d(itime)/co_passing/pressure(:,:) ⇹PaFLT_2D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/co_passing/pressure_fast(:,:) ⇹PaFLT_2D¶Pressure of fast particles
Pressure of fast particles
distribution(i1)/profiles_2d(itime)/co_passing/pressure_fast_parallel(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
distribution(i1)/profiles_2d(itime)/co_passing/pressure_fast_perpendicular(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
New in version >4.0.0.
distribution(i1)/profiles_2d(itime)/co_passing/current_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_2d(itime)/co_passing/current_fast_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_2d(itime)/co_passing/torque_phi_j_radial(:,:) ⇹N.m^-2FLT_2D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_2d(itime)/co_passing/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_2d(itime)/co_passing/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_2d(itime)/co_passing/collisions/electrons/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/co_passing/collisions/electrons/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/co_passing/collisions/electrons/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/co_passing/collisions/electrons/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
1 |
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distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
1 |
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distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/torque_fast_tor(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
distribution(i1)/profiles_2d(itime)/co_passing/collisions/ion(i2)/state(i3)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/counter_passingstructure¶Flux surface averaged profile evaluated using the counter-passing […] (click to expand)
Flux surface averaged profile evaluated using the counter-passing particle part of the distribution.
distribution(i1)/profiles_2d(itime)/counter_passing/density(:,:) ⇹m^-3FLT_2D¶Density (thermal+non-thermal)
Density (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/counter_passing/density_fast(:,:) ⇹m^-3FLT_2D¶Density of fast particles
Density of fast particles
distribution(i1)/profiles_2d(itime)/counter_passing/pressure(:,:) ⇹PaFLT_2D¶Pressure (thermal+non-thermal)
Pressure (thermal+non-thermal)
distribution(i1)/profiles_2d(itime)/counter_passing/pressure_fast(:,:) ⇹PaFLT_2D¶Pressure of fast particles
Pressure of fast particles
distribution(i1)/profiles_2d(itime)/counter_passing/pressure_fast_parallel(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the parallel direction
Pressure of fast particles in the parallel direction
distribution(i1)/profiles_2d(itime)/counter_passing/pressure_fast_perpendicular(:,:) ⇹PaFLT_2D¶Pressure of fast particles in the perpendicular direction
Pressure of fast particles in the perpendicular direction
New in version >4.0.0.
distribution(i1)/profiles_2d(itime)/counter_passing/current_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density (including electron and […] (click to expand)
Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_tor
distribution(i1)/profiles_2d(itime)/counter_passing/current_fast_phi(:,:) ⇹A.m^-2FLT_2D¶Total toroidal driven current density of fast (non-thermal) particles […] (click to expand)
Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
Changed in version 3.42.0: Renamed from current_fast_tor
distribution(i1)/profiles_2d(itime)/counter_passing/torque_phi_j_radial(:,:) ⇹N.m^-2FLT_2D¶Toroidal torque due to radial currents
Toroidal torque due to radial currents
Changed in version 3.42.0: Renamed from torque_tor_j_radial
distribution(i1)/profiles_2d(itime)/counter_passing/collisionsstructure¶Power and torque exchanged between the species described by the […] (click to expand)
Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/electronsstructure¶Collisional exchange with electrons
Collisional exchange with electrons
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/electrons/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/electrons/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/electrons/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/electrons/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)AoS¶Collisional exchange with the various ion species
Collisional exchange with the various ion species
1 |
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distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/element(i3)AoS¶List of elements forming the atom or molecule
List of elements forming the atom or molecule
1 |
|
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/element(i3)/a ⇹uFLT_0D¶Mass of atom
Mass of atom
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/z_ion ⇹eFLT_0D¶Ion charge (of the dominant ionization state; lumped ions are […] (click to expand)
Ion charge (of the dominant ionization state; lumped ions are allowed).
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/nameSTR_0D¶String identifying the species (e.g. […] (click to expand)
String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/neutral_indexINT_0D¶Index of the corresponding neutral species in the ../../neutral […] (click to expand)
Index of the corresponding neutral species in the ../../neutral array
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/multiple_states_flagINT_0D¶Multiple state calculation flag : 0-Only one state is considered; […] (click to expand)
Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)AoS¶Collisional exchange with the various states of the ion species […] (click to expand)
Collisional exchange with the various states of the ion species (ionization, energy, excitation, …)
1 |
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distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/z_min ⇹eFLT_0D¶Minimum Z of the charge state bundle (z_min = z_max = 0 for a […] (click to expand)
Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/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)
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/nameSTR_0D¶String identifying charge state (e.g. […] (click to expand)
String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, …)
Changed in version 3.42.0: Renamed from label
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/electron_configurationSTR_0D¶Configuration of atomic orbitals of this state, e.g. […] (click to expand)
Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D¶Vibrational level (can be bundled)
Vibrational level (can be bundled)
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/vibrational_modeSTR_0D¶Vibrational mode of this state, e.g. […] (click to expand)
Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/power_thermal(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the thermal particle population
Collisional power density to the thermal particle population
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/power_fast(:,:) ⇹W.m^-3FLT_2D¶Collisional power density to the fast particle population
Collisional power density to the fast particle population
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/torque_thermal_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the thermal particle population
Collisional toroidal torque density to the thermal particle population
Changed in version 3.42.0: Renamed from torque_thermal_tor
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/torque_fast_tor(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
distribution(i1)/profiles_2d(itime)/counter_passing/collisions/ion(i2)/state(i3)/torque_fast_phi(:,:) ⇹N.m^-2FLT_2D¶Collisional toroidal torque density to the fast particle population
Collisional toroidal torque density to the fast particle population
Changed in version 3.42.0: Renamed from torque_fast_tor
distribution(i1)/is_delta_fINT_0D¶If is_delta_f=1, then the distribution represents the deviation […] (click to expand)
If is_delta_f=1, then the distribution represents the deviation from a Maxwellian; is_delta_f=0, then the distribution represents all particles, i.e. the full-f solution
distribution(i1)/ggd(itime)AoS¶Distribution represented using the ggd, for various time slices
Distribution represented using the ggd, for various time slices
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distribution(i1)/ggd(itime)/gridstructure¶Grid description
Grid description
distribution(i1)/ggd(itime)/grid/identifierstructure¶Grid identifier
Grid identifier
This is an identifier. See ggd_identifier for the available options.
distribution(i1)/ggd(itime)/grid/identifier/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/ggd(itime)/grid/pathSTR_0D¶Path of the grid, including the IDS name, in case of implicit […] (click to expand)
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)
distribution(i1)/ggd(itime)/grid/space(i2)AoS¶Set of grid spaces
Set of grid spaces
Click here for further documentation.
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distribution(i1)/ggd(itime)/grid/space(i2)/identifierstructure¶Space identifier
Space identifier
This is an identifier. See ggd_space_identifier for the available options.
distribution(i1)/ggd(itime)/grid/space(i2)/identifier/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/ggd(itime)/grid/space(i2)/geometry_typestructure¶Type of space geometry (0: standard, 1:Fourier, >1: Fourier with […] (click to expand)
Type of space geometry (0: standard, 1:Fourier, >1: Fourier with periodicity)
distribution(i1)/ggd(itime)/grid/space(i2)/geometry_type/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/ggd(itime)/grid/space(i2)/coordinates_type(i3)AoS¶Type of coordinates describing the physical space, for every […] (click to expand)
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.
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Changed in version 4.0.0: Type changed from INT_1D
distribution(i1)/ggd(itime)/grid/space(i2)/coordinates_type(i3)/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)AoS¶Definition of the space objects for every dimension (from one […] (click to expand)
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.
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distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)AoS¶Set of objects for a given dimension
Set of objects for a given dimension
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distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)/boundary(i5)AoS¶Set of (n-1)-dimensional objects defining the boundary of this […] (click to expand)
Set of (n-1)-dimensional objects defining the boundary of this n-dimensional object
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distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)/boundary(i5)/indexINT_0D¶Index of this (n-1)-dimensional boundary object
Index of this (n-1)-dimensional boundary object
distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)/boundary(i5)/neighbours(:)INT_1D¶List of indices of the n-dimensional objects adjacent to the […] (click to expand)
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
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distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)/geometry(:)mixedFLT_1D¶Geometry data associated with the object, its detailed content […] (click to expand)
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.
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distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)/nodes(:)INT_1D¶List of nodes forming this object (indices to objects_per_dimension(1)%object(:) […] (click to expand)
List of nodes forming this object (indices to objects_per_dimension(1)%object(:) in Fortran notation)
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distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)/measurem^dimensionFLT_0D¶Measure of the space object, i.e. […] (click to expand)
Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,…)
distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/object(i4)/geometry_2d(:,:)mixedFLT_2D¶2D geometry data associated with the object. […] (click to expand)
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.
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New in version >3.35.0.
distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/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.
distribution(i1)/ggd(itime)/grid/space(i2)/objects_per_dimension(i3)/geometry_content/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/ggd(itime)/grid/grid_subset(i2)AoS¶Grid subsets
Grid subsets
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/identifierstructure¶Grid subset identifier
Grid subset identifier
Click here for further documentation.
This is an identifier. See ggd_subset_identifier for the available options.
distribution(i1)/ggd(itime)/grid/grid_subset(i2)/identifier/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/ggd(itime)/grid/grid_subset(i2)/dimensionINT_0D¶Space dimension of the grid subset elements, using the convention […] (click to expand)
Space dimension of the grid subset elements, using the convention 1=nodes, 2=edges, 3=faces, 4=cells/volumes
distribution(i1)/ggd(itime)/grid/grid_subset(i2)/element(i3)AoS¶Set of elements defining the grid subset. […] (click to expand)
Set of elements defining the grid subset. An element is defined by a combination of objects from potentially all spaces
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/element(i3)/object(i4)AoS¶Set of objects defining the element
Set of objects defining the element
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/element(i3)/object(i4)/spaceINT_0D¶Index of the space from which that object is taken
Index of the space from which that object is taken
distribution(i1)/ggd(itime)/grid/grid_subset(i2)/base(i3)AoS¶Set of bases for the grid subset. […] (click to expand)
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.
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/base(i3)/jacobian(:) ⇹mixedFLT_1D¶Metric Jacobian
Metric Jacobian
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/base(i3)/tensor_covariant(:,:,:) ⇹mixedFLT_3D¶Covariant metric tensor, given on each element of the subgrid […] (click to expand)
Covariant metric tensor, given on each element of the subgrid (first dimension)
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/base(i3)/tensor_contravariant(:,:,:) ⇹mixedFLT_3D¶Contravariant metric tensor, given on each element of the subgrid […] (click to expand)
Contravariant metric tensor, given on each element of the subgrid (first dimension)
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/metricstructure¶Metric of the canonical frame onto Cartesian coordinates
Metric of the canonical frame onto Cartesian coordinates
distribution(i1)/ggd(itime)/grid/grid_subset(i2)/metric/jacobian(:) ⇹mixedFLT_1D¶Metric Jacobian
Metric Jacobian
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/metric/tensor_covariant(:,:,:) ⇹mixedFLT_3D¶Covariant metric tensor, given on each element of the subgrid […] (click to expand)
Covariant metric tensor, given on each element of the subgrid (first dimension)
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distribution(i1)/ggd(itime)/grid/grid_subset(i2)/metric/tensor_contravariant(:,:,:) ⇹mixedFLT_3D¶Contravariant metric tensor, given on each element of the subgrid […] (click to expand)
Contravariant metric tensor, given on each element of the subgrid (first dimension)
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distribution(i1)/ggd(itime)/temperature(:) ⇹eVFLT_1D¶Reference temperature profile used to define the local thermal […] (click to expand)
Reference temperature profile used to define the local thermal energy and the thermal velocity (for normalization of the grid coordinates)
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distribution(i1)/ggd(itime)/orbit_frequency_polrad.s^-1structure¶Poloidal orbit frequency (transit or bounce) at the grid location […] (click to expand)
Poloidal orbit frequency (transit or bounce) at the grid location (in phase space)
New in version >3.41.0.
distribution(i1)/ggd(itime)/orbit_frequency_pol/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/orbit_frequency_pol/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/orbit_frequency_pol/values(:) ⇹rad.s^-1FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
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distribution(i1)/ggd(itime)/orbit_frequency_pol/coefficients(:,:) ⇹rad.s^-1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/orbit_frequency_torrad.s^-1structure¶Toroidal orbit frequency (transit or precession) at the grid […] (click to expand)
Toroidal orbit frequency (transit or precession) at the grid location (in phase space)
New in version >3.41.0.
distribution(i1)/ggd(itime)/orbit_frequency_tor/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/orbit_frequency_tor/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/orbit_frequency_tor/values(:) ⇹rad.s^-1FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
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distribution(i1)/ggd(itime)/orbit_frequency_tor/coefficients(:,:) ⇹rad.s^-1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/expansion(i2)m^-6.s^3AoS¶Distribution function expanded into a vector of successive approximations. […] (click to expand)
Distribution function expanded into a vector of successive approximations. The first element in the vector (expansion(1)) is the zeroth order distribution function, while the K:th element in the vector (expansion(K)) is the K:th correction, such that the total distribution function is a sum over all elements in the expansion vector.
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distribution(i1)/ggd(itime)/expansion(i2)/grid_subset(i3)mixedAoS¶Values of the distribution function expansion, for various grid […] (click to expand)
Values of the distribution function expansion, for various grid subsets
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distribution(i1)/ggd(itime)/expansion(i2)/grid_subset(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/expansion(i2)/grid_subset(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/expansion(i2)/grid_subset(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.
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distribution(i1)/ggd(itime)/expansion(i2)/grid_subset(i3)/coefficients(:,:) ⇹mixedFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/expansion_fd3v(i2)m^-3AoS¶Distribution function multiplied by the volume of the local velocity […] (click to expand)
Distribution function multiplied by the volume of the local velocity cell d3v, expanded into a vector of successive approximations. The first element in the vector (expansion(1)) is the zeroth order distribution function, while the K:th element in the vector (expansion(K)) is the K:th correction, such that the total distribution function is a sum over all elements in the expansion vector.
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distribution(i1)/ggd(itime)/expansion_fd3v(i2)/grid_subset(i3)mixedAoS¶Values of the distribution function expansion, for various grid […] (click to expand)
Values of the distribution function expansion, for various grid subsets
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distribution(i1)/ggd(itime)/expansion_fd3v(i2)/grid_subset(i3)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/expansion_fd3v(i2)/grid_subset(i3)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/expansion_fd3v(i2)/grid_subset(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.
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distribution(i1)/ggd(itime)/expansion_fd3v(i2)/grid_subset(i3)/coefficients(:,:) ⇹mixedFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/amplitudem^-6.s^3structure¶Value of the distribution function at the grid position in phase […] (click to expand)
Value of the distribution function at the grid position in phase space. The interpolation coefficients refer to a C-2 spline.
New in version >3.41.0.
distribution(i1)/ggd(itime)/amplitude/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/amplitude/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/amplitude/values(:) ⇹m^-6.s^3FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
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distribution(i1)/ggd(itime)/amplitude/coefficients(:,:) ⇹m^-6.s^3FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/orbitmixedstructure¶Orbit description of the particle at this position in phase space. […] (click to expand)
Orbit description of the particle at this position in phase space. First dimension is the element index. Second dimension is the time along the orbit. Third dimension contains the particle phase space coordinates.
New in version >3.41.0.
distribution(i1)/ggd(itime)/orbit/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/orbit/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/orbit/values(:,:,:) ⇹mixedFLT_3D¶List of matrix components, one list per element in the grid subset. […] (click to expand)
List of matrix components, one list per element in the grid subset. First dimension: element index. Second dimension: first matrix index. Third dimension: second matrix index.
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distribution(i1)/ggd(itime)/orbit/coefficients(:,:,:,:) ⇹mixedFLT_4D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension). Second dimension: first matrix index. Third dimension: second matrix index. Fourth dimension: coefficient index
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distribution(i1)/ggd(itime)/orbit_typestructure¶Orbit type identifier
Orbit type identifier
This is an identifier. See orbit_type_identifier for the available options.
New in version >3.41.0.
distribution(i1)/ggd(itime)/orbit_type/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/orbit_type/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/midplane_motion_invariantsstructure¶Midplane values of the motion invariants, for each orbit, evaluated […] (click to expand)
Midplane values of the motion invariants, for each orbit, evaluated at the minimum of B.grad(B) along the orbit
New in version >4.1.1.
distribution(i1)/ggd(itime)/midplane_motion_invariants/r(i2)mAoS¶Major radius, for various grid subsets
Major radius, for various grid subsets
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distribution(i1)/ggd(itime)/midplane_motion_invariants/r(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/midplane_motion_invariants/r(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/midplane_motion_invariants/r(i2)/values(:) ⇹mFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
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distribution(i1)/ggd(itime)/midplane_motion_invariants/r(i2)/coefficients(:,:) ⇹mFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/midplane_motion_invariants/z(i2)mAoS¶Height, for various grid subsets
Height, for various grid subsets
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distribution(i1)/ggd(itime)/midplane_motion_invariants/z(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/midplane_motion_invariants/z(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/midplane_motion_invariants/z(i2)/values(:) ⇹mFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
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distribution(i1)/ggd(itime)/midplane_motion_invariants/z(i2)/coefficients(:,:) ⇹mFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/midplane_motion_invariants/v_parallel(i2)m.s^-1AoS¶Parallel velocity, for various grid subsets
Parallel velocity, for various grid subsets
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distribution(i1)/ggd(itime)/midplane_motion_invariants/v_parallel(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/midplane_motion_invariants/v_parallel(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/midplane_motion_invariants/v_parallel(i2)/values(:) ⇹m.s^-1FLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
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distribution(i1)/ggd(itime)/midplane_motion_invariants/v_parallel(i2)/coefficients(:,:) ⇹m.s^-1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/midplane_motion_invariants/phase(i2)radAoS¶Gyrophase, for various grid subsets
Gyrophase, for various grid subsets
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distribution(i1)/ggd(itime)/midplane_motion_invariants/phase(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/midplane_motion_invariants/phase(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/midplane_motion_invariants/phase(i2)/values(:) ⇹radFLT_1D¶One scalar value is provided per element in the grid subset.
One scalar value is provided per element in the grid subset.
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distribution(i1)/ggd(itime)/midplane_motion_invariants/phase(i2)/coefficients(:,:) ⇹radFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/midplane_motion_invariants/energy(i2)eVAoS¶Energy, for various grid subsets
Energy, for various grid subsets
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distribution(i1)/ggd(itime)/midplane_motion_invariants/energy(i2)/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/midplane_motion_invariants/energy(i2)/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/midplane_motion_invariants/energy(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.
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distribution(i1)/ggd(itime)/midplane_motion_invariants/energy(i2)/coefficients(:,:) ⇹eVFLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/ggd(itime)/motion_invariants_volume_norm1structure¶Normalised volume of the CoM (constants of motion) cell elements. […] (click to expand)
Normalised volume of the CoM (constants of motion) cell elements. The normalization is made on the maximum value of the CoM volume on the grid, i.e. Delta(E).Delta(lambda).Delta(P_phi).
New in version >4.1.1.
distribution(i1)/ggd(itime)/motion_invariants_volume_norm/grid_indexINT_0D¶Index of the grid used to represent this quantity
Index of the grid used to represent this quantity
distribution(i1)/ggd(itime)/motion_invariants_volume_norm/grid_subset_indexINT_0D¶Index of the grid subset the data is provided on. […] (click to expand)
Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distribution(i1)/ggd(itime)/motion_invariants_volume_norm/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.
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distribution(i1)/ggd(itime)/motion_invariants_volume_norm/coefficients(:,:) ⇹1FLT_2D¶Interpolation coefficients, to be used for a high precision evaluation […] (click to expand)
Interpolation coefficients, to be used for a high precision evaluation of the physical quantity with finite elements, provided per element in the grid subset (first dimension).
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distribution(i1)/markers(itime)AoS¶Distribution represented by a set of markers (test particles)
Distribution represented by a set of markers (test particles)
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distribution(i1)/markers(itime)/coordinate_identifier(i2)W.m^-3AoS¶Set of coordinate identifiers, coordinates on which the markers […] (click to expand)
Set of coordinate identifiers, coordinates on which the markers are represented
This is an identifier. See coordinate_identifier for the available options.
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distribution(i1)/markers(itime)/coordinate_identifier(i2)/nameSTR_0D¶Short string identifier
Short string identifier
distribution(i1)/markers(itime)/weights(:) ⇹1FLT_1D¶Weight of the markers, i.e. […] (click to expand)
Weight of the markers, i.e. number of real particles represented by each marker. The dimension of the vector correspond to the number of markers
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distribution(i1)/markers(itime)/positions(:,:) ⇹mixedFLT_2D¶Position of the markers in the set of coordinates. […] (click to expand)
Position of the markers in the set of coordinates. The first dimension corresponds to the number of markers, the second dimension to the set of coordinates
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distribution(i1)/markers(itime)/orbit_integralsstructure¶Integrals along the markers orbit. […] (click to expand)
Integrals along the markers orbit. These dimensionless expressions are of the form: (1/tau) integral (f(n_tor,m_pol,k,eq,…) dt) from time - tau to time, where tau is the transit/trapping time of the marker and f() a dimensionless function (phase factor,drift,etc) of the equilibrium (e.g. q) and perturbation (Fourier harmonics n_tor,m_pol and bounce harmonic k) along the particles orbits. In fact the integrals are taken during the last orbit of each marker at the time value of the time node below
distribution(i1)/markers(itime)/orbit_integrals/expressions(:)STR_1D¶List of the expressions f(n_tor,m_pol,k,q,…) used in the orbit […] (click to expand)
List of the expressions f(n_tor,m_pol,k,q,…) used in the orbit integrals
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distribution(i1)/markers(itime)/orbit_integrals/n_phi(:)INT_1D¶Array of toroidal mode numbers, where quantities vary as exp(i.n_phi.phi) […] (click to expand)
Array of toroidal mode numbers, where quantities vary as exp(i.n_phi.phi) and phi runs anticlockwise when viewed from above
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Changed in version 4.1.0: Renamed from n_tor
distribution(i1)/markers(itime)/orbit_integrals/m_pol(:)INT_1D¶Array of poloidal mode numbers, where quantities vary as exp(-i.m_pol.theta) […] (click to expand)
Array of poloidal mode numbers, where quantities vary as exp(-i.m_pol.theta) and theta is the angle defined by the choice of ../../coordinate_identifier, with its centre at the magnetic axis recalled at the root of this IDS
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distribution(i1)/markers(itime)/orbit_integrals/bounce_harmonics(:)INT_1D¶Array of bounce harmonics k
Array of bounce harmonics k
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distribution(i1)/markers(itime)/orbit_integrals/values(:,:,:,:,:) ⇹1CPX_5D¶Values of the orbit integrals
Values of the orbit integrals
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distribution(i1)/markers(itime)/orbit_integrals_instantstructure¶Integrals/quantities along the markers orbit. […] (click to expand)
Integrals/quantities along the markers orbit. These dimensionless expressions are of the form: (1/tau) integral ( f(eq) dt) from time - tau to time_orbit for different values of time_orbit in the interval from time - tau to time, where tau is the transit/trapping time of the marker and f(eq) a dimensionless function (phase, drift,q,etc) of the equilibrium along the markers orbits. The integrals are taken during the last orbit of each marker at the time value of the time node below
distribution(i1)/markers(itime)/orbit_integrals_instant/expressions(:)STR_1D¶List of the expressions f(eq) used in the orbit integrals
List of the expressions f(eq) used in the orbit integrals
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distribution(i1)/markers(itime)/orbit_integrals_instant/time_orbit(:) ⇹sFLT_1D¶Time array along the markers last orbit
Time array along the markers last orbit
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distribution(i1)/markers(itime)/orbit_integrals_instant/values(:,:,:) ⇹1CPX_3D¶Values of the orbit integrals
Values of the orbit integrals
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distribution(i1)/markers(itime)/toroidal_modeINT_0D¶In case the orbit integrals are calculated for a given MHD perturbation, […] (click to expand)
In case the orbit integrals are calculated for a given MHD perturbation, index of the toroidal mode considered. Refers to the time_slice/toroidal_mode array of the MHD_LINEAR IDS in which this perturbation is described
vacuum_toroidal_fieldstructure¶Characteristics of the vacuum toroidal field (used in rho_tor […] (click to expand)
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 […] (click to expand)
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)
vacuum_toroidal_field/b0(:) ⇹TFLT_1D¶Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise […] (click to expand)
Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise when viewing from above. The product R0B0 must be consistent with the b_tor_vacuum_r field of the tf IDS.
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