`core_transport`¶

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Core plasma transport of particles, energy, momentum and poloidal flux. The transport of particles, energy and momentum is described by diffusion coefficients, D, and convection velocities, v. These are defined by the total fluxes of particles, energy and momentum, across a flux surface given by : V’ [-D Y’ <|grad(rho_tor_norm)|^2> + v Y <|grad(rho_tor_norm)|>], where Y represents the particles, energy and momentum density, respectively, while V is the volume inside a flux surface, the primes denote derivatives with respect to rho_tor_norm and < X > is the flux surface average of a quantity X. This formulation remains valid when changing simultaneously rho_tor_norm into rho_tor in the gradient terms and in the derivatives denoted by the prime. The average flux stored in the IDS as sibling of D and v is the total flux described above divided by the flux surface area V’ <|grad(rho_tor_norm)|>. Note that the energy flux includes the energy transported by the particle flux, in this form: Q = V’ [- n D (T)’ <|grad(rho_tor_norm)|^2> + v (nT) <|grad(rho_tor_norm)|>] + flux_multiplier * T * particle_flux

Maximum occurrences (MDS+ backend only): 10

New in version 3.1.0: lifecycle status active

Changed in version 3.42.0.

ids_propertiesstructure ¶

See common IDS structure reference: ids_properties.

vacuum_toroidal_fieldstructure ¶Characteristics of the vacuum toroidal field (used in Rho_Tor […]

Characteristics of the vacuum toroidal field (used in Rho_Tor definition and in the normalization of current densities)

vacuum_toroidal_field/r0 ⇹mFLT_0D ¶Reference major radius where the vacuum toroidal magnetic field […]

Reference major radius where the vacuum toroidal magnetic field is given (usually a fixed position such as the middle of the vessel at the equatorial midplane)

vacuum_toroidal_field/b0(:) ⇹TFLT_1D ¶Vacuum toroidal field at R0 [T]; Positive sign means anti-clockwise […]

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.

	Coordinate
1	`time`

model(i1)AoS ¶Transport is described by a combination of various transport […]

Transport is described by a combination of various transport models

Appendable by appender actor: yes
Maximum occurrences (MDS+ backend only): 18

	Coordinate
1	`1...N`

model(i1)/comment STR_0D ¶Any comment describing the model

Any comment describing the model

model(i1)/identifierstructure ¶Transport model identifier

Transport model identifier

This is an identifier. See core_transport_identifier for the available options.

model(i1)/identifier/name STR_0D ¶Short string identifier

Short string identifier

model(i1)/identifier/index INT_0D ¶Integer identifier (enumeration index within a list). […]

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

model(i1)/identifier/description STR_0D ¶Verbose description

Verbose description

model(i1)/flux_multiplier ⇹1FLT_0D ¶Multiplier applied to the particule flux when adding its contribution […]

Multiplier applied to the particule flux when adding its contribution in the expression of the heat flux : can be 0, 3/2 or 5/2

model(i1)/profiles_1d(itime)AoS ¶Transport coefficient profiles for various time slices. […]

Transport coefficient profiles for various time slices. Fluxes and convection are positive (resp. negative) when outwards i.e. towards the LCFS (resp. inwards i.e. towards the magnetic axes).

	Coordinate
1	`model(i1)/profiles_1d(itime)/time`

model(i1)/profiles_1d(itime)/grid_dstructure ¶Grid for effective diffusivities and parallel conductivity

Grid for effective diffusivities and parallel conductivity

model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm(:) ⇹1FLT_1D ¶Normalized toroidal flux coordinate. […]

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:

model(i1)/profiles_1d(itime)/grid_d/rho_tor
model(i1)/profiles_1d(itime)/grid_d/psi
model(i1)/profiles_1d(itime)/grid_d/volume
model(i1)/profiles_1d(itime)/grid_d/area
model(i1)/profiles_1d(itime)/grid_d/surface
model(i1)/profiles_1d(itime)/grid_d/rho_pol_norm

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/grid_d/rho_tor(:) ⇹mFLT_1D ¶Toroidal flux coordinate = sqrt(phi/(pi\*b0)), where the toroidal […]

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

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_d/rho_pol_norm(:) ⇹1FLT_1D ¶Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) […]

Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) / (psi(LCFS)-psi(magnetic_axis)))

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_d/psi(:) ⇹WbFLT_1D ¶Poloidal magnetic flux. […]

Poloidal magnetic flux. Integral of magnetic field passing through a contour defined by the intersection of a flux surface passing through the point of interest and a Z=constant plane. If the integration surface is flat, the surface normal vector is in the increasing vertical coordinate direction, Z, namely upwards.

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_d/volume(:) ⇹m^3FLT_1D ¶Volume enclosed inside the magnetic surface

Volume enclosed inside the magnetic surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_d/area(:) ⇹m^2FLT_1D ¶Cross-sectional area of the flux surface

Cross-sectional area of the flux surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_d/surface(:) ⇹m^2FLT_1D ¶Surface area of the toroidal flux surface

Surface area of the toroidal flux surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_d/psi_magnetic_axis ⇹WbFLT_0D ¶Value of the poloidal magnetic flux at the magnetic axis (useful […]

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)

model(i1)/profiles_1d(itime)/grid_d/psi_boundary ⇹WbFLT_0D ¶Value of the poloidal magnetic flux at the plasma boundary (useful […]

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)

model(i1)/profiles_1d(itime)/grid_vstructure ¶Grid for effective convections

Grid for effective convections

model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm(:) ⇹1FLT_1D ¶Normalized toroidal flux coordinate. […]

Alternatives for this coordinate

The following items may be used as a coordinate instead of rho_tor_norm:

model(i1)/profiles_1d(itime)/grid_v/rho_tor
model(i1)/profiles_1d(itime)/grid_v/psi
model(i1)/profiles_1d(itime)/grid_v/volume
model(i1)/profiles_1d(itime)/grid_v/area
model(i1)/profiles_1d(itime)/grid_v/surface
model(i1)/profiles_1d(itime)/grid_v/rho_pol_norm

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/grid_v/rho_tor(:) ⇹mFLT_1D ¶Toroidal flux coordinate = sqrt(phi/(pi\*b0)), where the toroidal […]

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

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_v/rho_pol_norm(:) ⇹1FLT_1D ¶Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) […]

Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) / (psi(LCFS)-psi(magnetic_axis)))

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_v/psi(:) ⇹WbFLT_1D ¶Poloidal magnetic flux. […]

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_v/volume(:) ⇹m^3FLT_1D ¶Volume enclosed inside the magnetic surface

Volume enclosed inside the magnetic surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_v/area(:) ⇹m^2FLT_1D ¶Cross-sectional area of the flux surface

Cross-sectional area of the flux surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_v/surface(:) ⇹m^2FLT_1D ¶Surface area of the toroidal flux surface

Surface area of the toroidal flux surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_v/psi_magnetic_axis ⇹WbFLT_0D ¶Value of the poloidal magnetic flux at the magnetic axis (useful […]

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)

model(i1)/profiles_1d(itime)/grid_v/psi_boundary ⇹WbFLT_0D ¶Value of the poloidal magnetic flux at the plasma boundary (useful […]

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)

model(i1)/profiles_1d(itime)/grid_fluxstructure ¶Grid for fluxes

Grid for fluxes

model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm(:) ⇹1FLT_1D ¶Normalized toroidal flux coordinate. […]

Alternatives for this coordinate

The following items may be used as a coordinate instead of rho_tor_norm:

model(i1)/profiles_1d(itime)/grid_flux/rho_tor
model(i1)/profiles_1d(itime)/grid_flux/psi
model(i1)/profiles_1d(itime)/grid_flux/volume
model(i1)/profiles_1d(itime)/grid_flux/area
model(i1)/profiles_1d(itime)/grid_flux/surface
model(i1)/profiles_1d(itime)/grid_flux/rho_pol_norm

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/grid_flux/rho_tor(:) ⇹mFLT_1D ¶Toroidal flux coordinate = sqrt(phi/(pi\*b0)), where the toroidal […]

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

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_flux/rho_pol_norm(:) ⇹1FLT_1D ¶Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) […]

Normalized poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) / (psi(LCFS)-psi(magnetic_axis)))

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_flux/psi(:) ⇹WbFLT_1D ¶Poloidal magnetic flux. […]

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_flux/volume(:) ⇹m^3FLT_1D ¶Volume enclosed inside the magnetic surface

Volume enclosed inside the magnetic surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_flux/area(:) ⇹m^2FLT_1D ¶Cross-sectional area of the flux surface

Cross-sectional area of the flux surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_flux/surface(:) ⇹m^2FLT_1D ¶Surface area of the toroidal flux surface

Surface area of the toroidal flux surface

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/grid_flux/psi_magnetic_axis ⇹WbFLT_0D ¶Value of the poloidal magnetic flux at the magnetic axis (useful […]

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)

model(i1)/profiles_1d(itime)/grid_flux/psi_boundary ⇹WbFLT_0D ¶Value of the poloidal magnetic flux at the plasma boundary (useful […]

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)

model(i1)/profiles_1d(itime)/conductivity_parallel(:) ⇹ohm^-1.m^-1FLT_1D ¶Parallel conductivity

Parallel conductivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/electronsstructure ¶Transport quantities related to the electrons

Transport quantities related to the electrons

model(i1)/profiles_1d(itime)/electrons/particlesstructure ¶Transport quantities for the electron density equation

Transport quantities for the electron density equation

model(i1)/profiles_1d(itime)/electrons/particles/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/electrons/particles/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/electrons/particles/flux(:) ⇹m^-2.s^-1FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/electrons/energystructure ¶Transport quantities for the electron energy equation

Transport quantities for the electron energy equation

model(i1)/profiles_1d(itime)/electrons/energy/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/electrons/energy/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/electrons/energy/flux(:) ⇹W.m^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/total_ion_energystructure ¶Transport coefficients for the total (summed over ion species) […]

Transport coefficients for the total (summed over ion species) energy equation

model(i1)/profiles_1d(itime)/total_ion_energy/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/total_ion_energy/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/total_ion_energy/flux(:) ⇹W.m^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/momentum_phistructure ¶Transport coefficients for total toroidal momentum equation

Transport coefficients for total toroidal momentum equation

Changed in version 3.42.0: Renamed from momentum_tor

model(i1)/profiles_1d(itime)/momentum_phi/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/momentum_phi/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/momentum_phi/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/e_field_radial(:) ⇹V.m^-1FLT_1D ¶Radial component of the electric field (calculated e.g. […]

Radial component of the electric field (calculated e.g. by a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)AoS ¶Transport coefficients related to the various ion species, in […]

Transport coefficients related to the various ion species, in the sense of isonuclear or isomolecular sequences. Ionization states (and other types of states) must be differentiated at the state level below

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/ion(i2)/element(i3)AoS ¶List of elements forming the atom or molecule

List of elements forming the atom or molecule

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/ion(i2)/element(i3)/a ⇹uFLT_0D ¶Mass of atom

Mass of atom

model(i1)/profiles_1d(itime)/ion(i2)/element(i3)/z_neINT_0D ¶Nuclear charge

Nuclear charge

Changed in version 4.0.0: Type changed from FLT_0D

model(i1)/profiles_1d(itime)/ion(i2)/element(i3)/atoms_n INT_0D ¶Number of atoms of this element in the molecule

Number of atoms of this element in the molecule

model(i1)/profiles_1d(itime)/ion(i2)/z_ion ⇹eFLT_0D ¶Ion charge (of the dominant ionization state; lumped ions are […]

Ion charge (of the dominant ionization state; lumped ions are allowed)

model(i1)/profiles_1d(itime)/ion(i2)/name STR_0D ¶String identifying ion (e.g. […]

String identifying ion (e.g. H, D, T, He, C, D2, …)

Changed in version 3.42.0: Renamed from label

model(i1)/profiles_1d(itime)/ion(i2)/neutral_index INT_0D ¶Index of the corresponding neutral species in the ../../neutral […]

Index of the corresponding neutral species in the ../../neutral array

model(i1)/profiles_1d(itime)/ion(i2)/particlesstructure ¶Transport related to the ion density equation

Transport related to the ion density equation

model(i1)/profiles_1d(itime)/ion(i2)/particles/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/particles/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/particles/flux(:) ⇹m^-2.s^-1FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/energystructure ¶Transport coefficients related to the ion energy equation

Transport coefficients related to the ion energy equation

model(i1)/profiles_1d(itime)/ion(i2)/energy/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/energy/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/energy/flux(:) ⇹W.m^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentumstructure ¶Transport coefficients related to the ion momentum equations […]

Transport coefficients related to the ion momentum equations for various components (directions)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/radialstructure ¶Radial component

Radial component

model(i1)/profiles_1d(itime)/ion(i2)/momentum/radial/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/radial/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/radial/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/radial/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/diamagneticstructure ¶Diamagnetic component

Diamagnetic component

model(i1)/profiles_1d(itime)/ion(i2)/momentum/diamagnetic/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/diamagnetic/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/diamagnetic/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/diamagnetic/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/parallelstructure ¶Parallel component

Parallel component

model(i1)/profiles_1d(itime)/ion(i2)/momentum/parallel/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/parallel/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/parallel/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/parallel/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/poloidalstructure ¶Poloidal component

Poloidal component

model(i1)/profiles_1d(itime)/ion(i2)/momentum/poloidal/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/poloidal/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/poloidal/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/poloidal/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/toroidalstructure ¶Toroidal component

Toroidal component

model(i1)/profiles_1d(itime)/ion(i2)/momentum/toroidal/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/toroidal/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/toroidal/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/momentum/toroidal/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/multiple_states_flag INT_0D ¶Multiple states calculation flag : 0-Only the ‘ion’ level is […]

Multiple states calculation flag : 0-Only the ‘ion’ level is considered and the ‘state’ array of structure is empty; 1-Ion states are considered and are described in the ‘state’ array of structure

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)AoS ¶Transport coefficients related to the different states of the […]

Transport coefficients related to the different states of the species

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/z_min ⇹eFLT_0D ¶Minimum Z of the charge state bundle

Minimum Z of the charge state bundle

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/z_max ⇹eFLT_0D ¶Maximum Z of the charge state bundle

Maximum Z of the charge state bundle

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/name STR_0D ¶String identifying charge state (e.g. […]

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

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/vibrational_level ⇹eFLT_0D ¶Vibrational level (can be bundled)

Vibrational level (can be bundled)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/vibrational_mode STR_0D ¶Vibrational mode of this state, e.g. […]

Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/electron_configuration STR_0D ¶Configuration of atomic orbitals of this state, e.g. […]

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/particlesstructure ¶Transport quantities related to density equation of the charge […]

Transport quantities related to density equation of the charge state considered (thermal+non-thermal)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/particles/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/particles/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/particles/flux(:) ⇹m^-2.s^-1FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/energystructure ¶Transport quantities related to the energy equation of the charge […]

Transport quantities related to the energy equation of the charge state considered

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/energy/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/energy/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/energy/flux(:) ⇹W.m^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentumstructure ¶Transport coefficients related to the state momentum equations […]

Transport coefficients related to the state momentum equations for various components (directions)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/radialstructure ¶Radial component

Radial component

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/radial/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/radial/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/radial/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/radial/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/diamagneticstructure ¶Diamagnetic component

Diamagnetic component

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/diamagnetic/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/diamagnetic/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/diamagnetic/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/diamagnetic/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/parallelstructure ¶Parallel component

Parallel component

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/parallel/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/parallel/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/parallel/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/parallel/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/poloidalstructure ¶Poloidal component

Poloidal component

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/poloidal/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/poloidal/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/poloidal/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/poloidal/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/toroidalstructure ¶Toroidal component

Toroidal component

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/toroidal/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/toroidal/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/toroidal/flux(:) ⇹kg.m^-1.s^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/ion(i2)/state(i3)/momentum/toroidal/flow_damping_rate(:) ⇹s^-1FLT_1D ¶Damping rate for this flow component (e.g. […]

Damping rate for this flow component (e.g. due to collisions, calculated from a neoclassical model)

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)AoS ¶Transport coefficients related to the various neutral species

Transport coefficients related to the various neutral species

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/neutral(i2)/element(i3)AoS ¶List of elements forming the atom or molecule

List of elements forming the atom or molecule

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/neutral(i2)/element(i3)/a ⇹uFLT_0D ¶Mass of atom

Mass of atom

model(i1)/profiles_1d(itime)/neutral(i2)/element(i3)/z_neINT_0D ¶Nuclear charge

Nuclear charge

Changed in version 4.0.0: Type changed from FLT_0D

model(i1)/profiles_1d(itime)/neutral(i2)/element(i3)/atoms_n INT_0D ¶Number of atoms of this element in the molecule

Number of atoms of this element in the molecule

model(i1)/profiles_1d(itime)/neutral(i2)/name STR_0D ¶String identifying ion (e.g. […]

String identifying ion (e.g. H+, D+, T+, He+2, C+, …)

Changed in version 3.42.0: Renamed from label

model(i1)/profiles_1d(itime)/neutral(i2)/ion_index INT_0D ¶Index of the corresponding ion species in the ../../ion array

Index of the corresponding ion species in the ../../ion array

model(i1)/profiles_1d(itime)/neutral(i2)/particlesstructure ¶Transport related to the neutral density equation

Transport related to the neutral density equation

model(i1)/profiles_1d(itime)/neutral(i2)/particles/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/particles/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/particles/flux(:) ⇹m^-2.s^-1FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/energystructure ¶Transport coefficients related to the neutral energy equation

Transport coefficients related to the neutral energy equation

model(i1)/profiles_1d(itime)/neutral(i2)/energy/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/energy/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/energy/flux(:) ⇹W.m^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/multiple_states_flag INT_0D ¶Multiple states calculation flag : 0-Only one state is considered; […]

Multiple states calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)AoS ¶Transport coefficients related to the different states of the […]

Transport coefficients related to the different states of the species

	Coordinate
1	`1...N`

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/name STR_0D ¶String identifying state

String identifying state

Changed in version 3.42.0: Renamed from label

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/vibrational_level ⇹eFLT_0D ¶Vibrational level (can be bundled)

Vibrational level (can be bundled)

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/vibrational_mode STR_0D ¶Vibrational mode of this state, e.g. […]

Vibrational mode of this state, e.g. “A_g”. Need to define, or adopt a standard nomenclature.

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/electron_configuration STR_0D ¶Configuration of atomic orbitals of this state, e.g. […]

Configuration of atomic orbitals of this state, e.g. 1s2-2s1

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/particlesstructure ¶Transport quantities related to density equation of the charge […]

Transport quantities related to density equation of the charge state considered (thermal+non-thermal)

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/particles/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/particles/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/particles/flux(:) ⇹m^-2.s^-1FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/energystructure ¶Transport quantities related to the energy equation of the charge […]

Transport quantities related to the energy equation of the charge state considered

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/energy/d(:) ⇹m^2.s^-1FLT_1D ¶Effective diffusivity

Effective diffusivity

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_d/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/energy/v(:) ⇹m.s^-1FLT_1D ¶Effective convection

Effective convection

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_v/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/neutral(i2)/state(i3)/energy/flux(:) ⇹W.m^-2FLT_1D ¶Flux

Flux

	Coordinate
1	`model(i1)/profiles_1d(itime)/grid_flux/rho_tor_norm` (or alternatives)

model(i1)/profiles_1d(itime)/timesFLT_0D ¶Time

Time

model(i1)/codestructure ¶Code-specific parameters used for this model

Code-specific parameters used for this model

model(i1)/code/name STR_0D ¶Name of software used

Name of software used

model(i1)/code/description STR_0D ¶Short description of the software (type, purpose)

Short description of the software (type, purpose)

New in version >3.38.1.

model(i1)/code/commit STR_0D ¶Unique commit reference of software

Unique commit reference of software

model(i1)/code/version STR_0D ¶Unique version (tag) of software

Unique version (tag) of software

model(i1)/code/repository STR_0D ¶URL of software repository

URL of software repository

model(i1)/code/parameters STR_0D ¶List of the code specific parameters in XML format

List of the code specific parameters in XML format

model(i1)/code/output_flagstructure ¶Output flag : 0 means the run is successful, other values mean […]

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

model(i1)/code/output_flag/data(:)INT_1D ¶Data

Data

	Coordinate
1	`model(i1)/code/output_flag/time`

model(i1)/code/output_flag/time(:)sFLT_1D ¶Time

Time

	Coordinate
1	`1...N`

codestructure ¶

See common IDS structure reference: code.

time(:)sFLT_1D ¶Generic time

Generic time

	Coordinate
1	`1...N`

core_transport¶

`core_transport`¶