distributions

Path	Dimensions	Type	Units	Description
distributions (alpha)				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.
distributions.code (alpha)		STRUCTURE		Generic decription of the code-specific parameters for the code that has produced this IDS
distributions.code.commit (alpha)		STR_0D		Unique commit reference of software
distributions.code.description (alpha)		STR_0D		Short description of the software (type, purpose)
distributions.code.library (alpha)	[1...N]	STRUCT_ARRAY		List of external libraries used by the code that has produced this IDS
distributions.code.library[:].commit (alpha)		STR_0D		Unique commit reference of software
distributions.code.library[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
distributions.code.library[:].name (alpha)		STR_0D		Name of software
distributions.code.library[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
distributions.code.library[:].repository (alpha)		STR_0D		URL of software repository
distributions.code.library[:].version (alpha)		STR_0D		Unique version (tag) of software
distributions.code.name (alpha)		STR_0D		Name of software generating IDS
distributions.code.output_flag (alpha)	[distributions.time]	INT_1D		Output flag : 0 means the run is successful, other values mean some difficulty has been encountered, the exact meaning is then code specific. Negative values mean the result shall not be used.
distributions.code.parameters (alpha)		STR_0D		List of the code specific parameters in XML format
distributions.code.repository (alpha)		STR_0D		URL of software repository
distributions.code.version (alpha)		STR_0D		Unique version (tag) of software
distributions.distribution (alpha)	[1...N]	STRUCT_ARRAY		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
distributions.distribution[:].ggd (alpha)	[distributions.distribution[:].ggd[:].time]	STRUCT_ARRAY		Distribution represented using the ggd, for various time slices
distributions.distribution[:].ggd[:].expansion (alpha)	[1...N]	STRUCT_ARRAY	(m.s^-1)^-3.m^-3	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.
distributions.distribution[:].ggd[:].expansion[:].grid_subset (alpha)	[1...N]	STRUCT_ARRAY	mixed	Values of the distribution function expansion, for various grid subsets
distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].coefficients (alpha)	[distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].values, 1...N]	FLT_2D (uncertain)	mixed	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).
distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].grid_index (alpha)		INT_0D		Index of the grid used to represent this quantity
distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].grid_subset_index (alpha)		INT_0D		Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distributions.distribution[:].ggd[:].expansion[:].grid_subset[:].values (alpha)	[1...N]	FLT_1D (uncertain)	mixed	One scalar value is provided per element in the grid subset.
distributions.distribution[:].ggd[:].expansion_fd3v (alpha)	[1...N]	STRUCT_ARRAY	m^-3	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.
distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset (alpha)	[1...N]	STRUCT_ARRAY	mixed	Values of the distribution function expansion, for various grid subsets
distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].coefficients (alpha)	[distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].values, 1...N]	FLT_2D (uncertain)	mixed	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).
distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].grid_index (alpha)		INT_0D		Index of the grid used to represent this quantity
distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].grid_subset_index (alpha)		INT_0D		Index of the grid subset the data is provided on. Corresponds to the index used in the grid subset definition: grid_subset(:)/identifier/index
distributions.distribution[:].ggd[:].expansion_fd3v[:].grid_subset[:].values (alpha)	[1...N]	FLT_1D (uncertain)	mixed	One scalar value is provided per element in the grid subset.
distributions.distribution[:].ggd[:].grid (alpha)		STRUCTURE		Grid description
distributions.distribution[:].ggd[:].grid.grid_subset (alpha)	[1...N]	STRUCT_ARRAY		Grid subsets
distributions.distribution[:].ggd[:].grid.grid_subset[:].base (alpha)	[1...N]	STRUCT_ARRAY		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.
distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].jacobian (alpha)	[distributions.distribution[:].ggd[:].grid.grid_subset[:].element]	FLT_1D (uncertain)	mixed	Metric Jacobian
distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].tensor_contravariant (alpha)	[distributions.distribution[:].ggd[:].grid.grid_subset[:].element, 1...N, 1...N]	FLT_3D (uncertain)	mixed	Contravariant metric tensor, given on each element of the subgrid (first dimension)
distributions.distribution[:].ggd[:].grid.grid_subset[:].base[:].tensor_covariant (alpha)	[distributions.distribution[:].ggd[:].grid.grid_subset[:].element, 1...N, 1...N]	FLT_3D (uncertain)	mixed	Covariant metric tensor, given on each element of the subgrid (first dimension)
distributions.distribution[:].ggd[:].grid.grid_subset[:].dimension (alpha)		INT_0D		Space dimension of the grid subset elements. This must be equal to the sum of the dimensions of the individual objects forming the element.
distributions.distribution[:].ggd[:].grid.grid_subset[:].element (alpha)	[1...N]	STRUCT_ARRAY		Set of elements defining the grid subset. An element is defined by a combination of objects from potentially all spaces
distributions.distribution[:].ggd[:].grid.grid_subset[:].element[:].object (alpha)	[1...N]	STRUCT_ARRAY		Set of objects defining the element
distributions.distribution[:].ggd[:].grid.grid_subset[:].element[:].object[:].dimension (alpha)		INT_0D		Dimension of the object
distributions.distribution[:].ggd[:].grid.grid_subset[:].element[:].object[:].index (alpha)		INT_0D		Object index
distributions.distribution[:].ggd[:].grid.grid_subset[:].element[:].object[:].space (alpha)		INT_0D		Index of the space from which that object is taken
distributions.distribution[:].ggd[:].grid.grid_subset[:].identifier (alpha)		STRUCTURE		Grid subset identifier 0) unspecified : unspecified 1) nodes : All nodes (0D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure). In case of a structured grid represented with multiple 1D spaces, the order of the implicit elements in the grid_subset follows Fortran ordering, i.e. iterate always on nodes of the first space first, then move to the second node of the second space, ... : [((s1_1 to s1_end), s2_1, s3_1 ... sN_1), (((s1_1 to s1_end), s2_2, s3_1, ... sN_1)), ... ((s1_1 to s1_end), s2_end, s3_end ... sN_end)] 200) nodes_combining_spaces : All nodes (0D) belonging to the first space, implicitly extended in other dimensions represented by the other spaces in a structured way. The number of subset elements is thus equal to the number of nodes in the first space. Implicit declaration (no need to replicate the grid elements in the grid_subset structure). 2) edges : All edges (1D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure) 3) x_aligned_edges : All x-aligned (poloidally) aligned edges belonging to the associated spaces 4) y_aligned_edges : All y-aligned (radially) aligned edges belonging to the associated spaces 5) cells : All cells (2D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure) 6) x_points : Nodes defining x-points 7) core_cut : y-aligned edges inside the separatrix connecting to the active x-point 8) PFR_cut : y-aligned edges in the private flux region connecting to the active x-point 9) outer_throat : y-aligned edges in the outer SOL connecting to the active x-point 10) inner_throat : y-aligned edges in the inner SOL connecting to the active x-point 11) outer_midplane : y-aligned edges connecting to the node closest to outer midplane on the separatrix 12) inner_midplane : y-aligned edges connecting to the node closest to inner midplane on the separatrix 13) outer_target : y-aligned edges defining the outer target 14) inner_target : y-aligned edges defining the inner target 15) core_boundary : Innermost x-aligned edges 16) separatrix : x-aligned edges defining the active separatrix 17) main_chamber_wall : x-aligned edges defining main chamber wall outside of the divertor regions 18) outer_baffle : x-aligned edges defining the chamber wall of the outer active divertor region 19) inner_baffle : x-aligned edges defining the chamber wall of the inner active divertor region 20) outer_PFR_wall : x-aligned edges defining the private flux region wall of the outer active divertor region 21) inner_PFR_wall : x-aligned edges defining the private flux region wall of the inner active divertor region 22) core : Cells inside the active separatrix 23) sol : Cells defining the main SOL outside of the divertor regions 24) outer_divertor : Cells defining the outer divertor region 25) inner_divertor : Cells defining the inner divertor region 26) core_sol : x-aligned edges defining part of active separatrix separating core and sol 27) full_main_chamber_wall : main_chamber_wall + outer_baffle(s) + inner_baffle(s) 28) full_PFR_wall : outer_PFR__wall(s) + inner_PFR_wall(s) 29) core_cut_X2 : y-aligned edges inside the separatrix connecting to the non-active x-point 30) PFR_cut_X2 : y-aligned edges in the private flux region connecting to the non-active x-point 31) outer_throat_X2 : y-aligned edges in the outer SOL connecting to the non-active x-point 32) inner_throat_X2 : y-aligned edges in the inner SOL connecting to the non-active x-point 33) separatrix_2 : x-aligned edges defining the non-active separatrix 34) outer_baffle_2 : x-aligned edges defining the chamber wall of the outer non-active divertor region 35) inner_baffle_2 : x-aligned edges defining the chamber wall of the inner non-active divertor region 36) outer_PFR_wall_2 : x-aligned edges defining the private flux region wall of the outer non-active divertor region 37) inner_PFR_wall_2 : x-aligned edges defining the private flux region wall of the inner non-active divertor region 38) intra_sep : Cells between the two separatrices 39) outer_divertor_2 : Cells defining the outer inactive divertor region 40) inner_divertor_2 : Cells defining the inner inactive divertor region 41) outer_target_2 : y-aligned edges defining the outer inactive target 42) inner_target_2 : y-aligned edges defining the inner inactive target 43) volumes : All volumes (3D) belonging to the associated spaces, implicit declaration (no need to replicate the grid elements in the grid_subset structure) 44) full_wall : All edges defining walls, baffles, and targets 45) outer_sf_leg_entrance_1 : y-aligned edges defining the SOL entrance of the first snowflake outer leg 46) outer_sf_leg_entrance_2 : y-aligned edges defining the SOL entrance of the third snowflake outer leg 47) outer_sf_pfr_connection_1 : y-aligned edges defining the connection between the outer snowflake entrance and third leg 48) outer_sf_pfr_connection_2 : y-aligned edges defining the connection between the outer snowflake first and second leg 100) magnetic_axis : Point corresponding to the magnetic axis 101) outer_mid_plane_separatrix : Point on active separatrix at outer mid-plane 102) inner_mid_plane_separatrix : Point on active separatrix at inner mid-plane 103) outer_target_separatrix : Point on active separatrix at outer active target 104) inner_target_separatrix : Point on active separatrix at inner active target 105) outer_target_separatrix_2 : Point on non-active separatrix at outer non-active target 106) inner_target_separatrix_2 : Point on non-active separatrix at inner non-active target
distributions.distribution[:].ggd[:].grid.grid_subset[:].identifier.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].ggd[:].grid.grid_subset[:].identifier.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].ggd[:].grid.grid_subset[:].identifier.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].ggd[:].grid.grid_subset[:].metric (alpha)		STRUCTURE		Metric of the canonical frame onto Cartesian coordinates
distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.jacobian (alpha)	[distributions.distribution[:].ggd[:].grid.grid_subset[:].element]	FLT_1D (uncertain)	mixed	Metric Jacobian
distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.tensor_contravariant (alpha)	[distributions.distribution[:].ggd[:].grid.grid_subset[:].element, 1...N, 1...N]	FLT_3D (uncertain)	mixed	Contravariant metric tensor, given on each element of the subgrid (first dimension)
distributions.distribution[:].ggd[:].grid.grid_subset[:].metric.tensor_covariant (alpha)	[distributions.distribution[:].ggd[:].grid.grid_subset[:].element, 1...N, 1...N]	FLT_3D (uncertain)	mixed	Covariant metric tensor, given on each element of the subgrid (first dimension)
distributions.distribution[:].ggd[:].grid.identifier (alpha)		STRUCTURE		Grid identifier 0) unspecified : unspecified 1) linear : Linear 2) cylinder : Cylindrical geometry (straight in axial direction) 3) limiter : Limiter 4) SN : Single null 5) CDN : Connected double null 6) DDN_bottom : Disconnected double null with inner X-point below the midplane 7) DDN_top : Disconnected double null with inner X-point above the midplane 8) annulus : Annular geometry (not necessarily with straight axis) 9) stellarator_island : Stellarator island geometry 10) structured_spaces : Structured grid represented with multiple spaces of dimension 1 11) LFS_snowflake_minus : Snowflake grid with secondary x point on the low field side, and the secondary separatrix on top of the primary 12) LFS_snowflake_plus : Snowflake grid with secondary x point to the right of the primary, and the secondary separatrix below the primary 100) reference : Refers to a GGD described in another IDS indicated by grid_path. In such a case, do not fill the grid_ggd node of this IDS
distributions.distribution[:].ggd[:].grid.identifier.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].ggd[:].grid.identifier.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].ggd[:].grid.identifier.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].ggd[:].grid.path (alpha)		STR_0D		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:0/description_ggd(1)/grid_ggd', means that the grid is located in the wall IDS, occurrence 0, with ids path 'description_ggd(1)/grid_ggd'. See the link below for more details about IDS paths
distributions.distribution[:].ggd[:].grid.space (alpha)	[1...N]	STRUCT_ARRAY		Set of grid spaces
distributions.distribution[:].ggd[:].grid.space[:].coordinates_type (alpha)	[1...N]	INT_1D		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. The meaning of these predefined integer constants can be found in the Data Dictionary under utilities/coordinate_identifier.xml
distributions.distribution[:].ggd[:].grid.space[:].geometry_type (alpha)		STRUCTURE		Type of space geometry (0: standard, 1:Fourier, >1: Fourier with periodicity)
distributions.distribution[:].ggd[:].grid.space[:].geometry_type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].ggd[:].grid.space[:].geometry_type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].ggd[:].grid.space[:].geometry_type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].ggd[:].grid.space[:].identifier (alpha)		STRUCTURE		Space identifier 0) unspecified : unspecified 1) primary_standard : Primary space defining the standard grid 2) primary_staggered : Primary space defining a grid staggered with respect to the primary standard space 3) secondary_structured : Secondary space defining additional dimensions that extend the primary standard space in a structured way
distributions.distribution[:].ggd[:].grid.space[:].identifier.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].ggd[:].grid.space[:].identifier.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].ggd[:].grid.space[:].identifier.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension (alpha)	[1...N]	STRUCT_ARRAY		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.
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content (alpha)		STRUCTURE		Content of the ../object/geometry node for this dimension 0) unspecified : unspecified 1) node_coordinates : For nodes : node coordinates 11) node_coordinates_connection : For nodes : node coordinates, then connection length, and distance in the poloidal plane to the nearest solid surface outside the separatrix 21) edge_areas : For edges : contains 3 surface areas after uniform extension in the third dimension of the edges. Geometry(1) and geometry(2) are the projections of that area along the local poloidal and radial coordinate respectively. Geometry(3) is the full surface area of the extended edge 31) face_indices_volume : For faces : coordinates indices (ix, iy) of the face within the structured grid of the code. The third element contains the volume after uniform extension in the third dimension of the faces 32) face_indices_volume_connection : For faces : coordinates indices (ix, iy) of the face within the structured grid of the code. The third element contains the volume after uniform extension in the third dimension of the faces. The fourth element is the connection length. The fifth element is the distance in the poloidal plane to the nearest solid surface outside the separatrix
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].geometry_content.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object (alpha)	[1...N]	STRUCT_ARRAY		Set of objects for a given dimension
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].boundary (alpha)	[1...N]	STRUCT_ARRAY		Set of (n-1)-dimensional objects defining the boundary of this n-dimensional object
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].boundary[:].index (alpha)		INT_0D		Index of this (n-1)-dimensional boundary object
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].boundary[:].neighbours (alpha)	[1...N]	INT_1D		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
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry (alpha)	[1...N]	FLT_1D (uncertain)	mixed	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.
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].geometry_2d (alpha)	[1...N, 1...N]	FLT_2D (uncertain)	mixed	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.
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].measure (alpha)		FLT_0D (uncertain)	m^dimension	Measure of the space object, i.e. physical size (length for 1d, area for 2d, volume for 3d objects,...)
distributions.distribution[:].ggd[:].grid.space[:].objects_per_dimension[:].object[:].nodes (alpha)	[1...N]	INT_1D		List of nodes forming this object (indices to objects_per_dimension(1)%object(:) in Fortran notation)
distributions.distribution[:].ggd[:].temperature (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	eV	Reference temperature profile used to define the local thermal energy and the thermal velocity (for normalisation of the grid coordinates)
distributions.distribution[:].ggd[:].time (alpha)		FLT_0D	s	Time
distributions.distribution[:].global_quantities (alpha)	[distributions.distribution[:].global_quantities[:].time]	STRUCT_ARRAY		Global quantities (integrated over plasma volume for moments of the distribution, collisional exchange and source terms), for various time slices
distributions.distribution[:].global_quantities[:].collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].global_quantities[:].collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].global_quantities[:].collisions.electrons.power_fast (alpha)		FLT_0D (uncertain)	W	Collisional power to the fast particle population
distributions.distribution[:].global_quantities[:].collisions.electrons.power_thermal (alpha)		FLT_0D (uncertain)	W	Collisional power to the thermal particle population
distributions.distribution[:].global_quantities[:].collisions.electrons.torque_fast_tor (alpha)		FLT_0D (uncertain)	N.m	Collisional toroidal torque to the fast particle population
distributions.distribution[:].global_quantities[:].collisions.electrons.torque_thermal_tor (alpha)		FLT_0D (uncertain)	N.m	Collisional toroidal torque to the thermal particle population
distributions.distribution[:].global_quantities[:].collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].global_quantities[:].collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].global_quantities[:].collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].global_quantities[:].collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].global_quantities[:].collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].global_quantities[:].collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].global_quantities[:].collisions.ion[:].power_fast (alpha)		FLT_0D (uncertain)	W	Collisional power to the fast particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].power_thermal (alpha)		FLT_0D (uncertain)	W	Collisional power to the thermal particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].power_fast (alpha)		FLT_0D (uncertain)	W	Collisional power to the fast particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].power_thermal (alpha)		FLT_0D (uncertain)	W	Collisional power to the thermal particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].torque_fast_tor (alpha)		FLT_0D (uncertain)	N.m	Collisional toroidal torque to the fast particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].torque_thermal_tor (alpha)		FLT_0D (uncertain)	N.m	Collisional toroidal torque to the thermal particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].global_quantities[:].collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].global_quantities[:].collisions.ion[:].torque_fast_tor (alpha)		FLT_0D (uncertain)	N.m	Collisional toroidal torque to the fast particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].torque_thermal_tor (alpha)		FLT_0D (uncertain)	N.m	Collisional toroidal torque to the thermal particle population
distributions.distribution[:].global_quantities[:].collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].global_quantities[:].current_tor (alpha)		FLT_0D (uncertain)	A	Toroidal current driven by the distribution
distributions.distribution[:].global_quantities[:].energy (alpha)		FLT_0D (uncertain)	J	Total energy in the distribution
distributions.distribution[:].global_quantities[:].energy_fast (alpha)		FLT_0D (uncertain)	J	Total energy of the fast particles in the distribution
distributions.distribution[:].global_quantities[:].energy_fast_parallel (alpha)		FLT_0D (uncertain)	J	Parallel energy of the fast particles in the distribution
distributions.distribution[:].global_quantities[:].particles_fast_n (alpha)		FLT_0D (uncertain)	-	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)
distributions.distribution[:].global_quantities[:].particles_n (alpha)		FLT_0D (uncertain)	-	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)
distributions.distribution[:].global_quantities[:].source (alpha)	[1...N]	STRUCT_ARRAY		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
distributions.distribution[:].global_quantities[:].source[:].identifier (alpha)		STRUCTURE		Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distributions.distribution[:].global_quantities[:].source[:].identifier.process_index (alpha)		INT_0D		Index into distribution/process
distributions.distribution[:].global_quantities[:].source[:].identifier.type (alpha)		STRUCTURE		Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distributions.distribution[:].global_quantities[:].source[:].identifier.type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].global_quantities[:].source[:].identifier.type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].global_quantities[:].source[:].identifier.type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].global_quantities[:].source[:].identifier.wave_index (alpha)		INT_0D		Index into distribution/wave
distributions.distribution[:].global_quantities[:].source[:].particles (alpha)		FLT_0D (uncertain)	s^-1	Particle source rate
distributions.distribution[:].global_quantities[:].source[:].power (alpha)		FLT_0D (uncertain)	W	Total power of the source
distributions.distribution[:].global_quantities[:].source[:].torque_tor (alpha)		FLT_0D (uncertain)	N.m	Total toroidal torque of the source
distributions.distribution[:].global_quantities[:].thermalisation (alpha)		STRUCTURE		Volume integrated source of thermal particles, momentum and energy due to thermalisation. Here thermalisation refers to non-thermal particles, sufficiently assimilated to the thermal background to be re-categorised 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.
distributions.distribution[:].global_quantities[:].thermalisation.particles (alpha)		FLT_0D (uncertain)	s^-1	Source rate of thermal particles due to the thermalisation of fast particles
distributions.distribution[:].global_quantities[:].thermalisation.power (alpha)		FLT_0D (uncertain)	W	Power input to the thermal particle population due to the thermalisation of fast particles
distributions.distribution[:].global_quantities[:].thermalisation.torque (alpha)		FLT_0D (uncertain)	N.m	Torque input to the thermal particle population due to the thermalisation of fast particles
distributions.distribution[:].global_quantities[:].time (alpha)		FLT_0D	s	Time
distributions.distribution[:].global_quantities[:].torque_tor_j_radial (alpha)		FLT_0D (uncertain)	N.m	Toroidal torque due to radial currents
distributions.distribution[:].gyro_type (alpha)		INT_0D		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
distributions.distribution[:].is_delta_f (alpha)		INT_0D		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
distributions.distribution[:].markers (alpha)	[distributions.distribution[:].markers[:].time]	STRUCT_ARRAY		Distribution represented by a set of markers (test particles)
distributions.distribution[:].markers[:].coordinate_identifier (alpha)	[1...N]	STRUCT_ARRAY	W.m^-3	Set of coordinate identifiers, coordinates on which the markers are represented 0) unspecified : unspecified 1) x : First cartesian coordinate in the horizontal plane 2) y : Second cartesian coordinate in the horizontal plane (grad(x) x grad(y) = grad(z)) 3) z : Vertical coordinate z 4) r : Major radius 5) phi : Toroidal angle 10) psi : Poloidal magnetic flux 11) rho_tor : The square root of the toroidal flux, sqrt((Phi-Phi_axis)/pi/B0), where Phi is the toroidal flux and B0 is the vaccum magnetic field 12) rho_tor_norm : The square root of the normalised toroidal flux, sqrt((Phi-Phi_axis)/(Phi_lcf-Phi_axis)), where Phi is the toroidal flux 13) rho_pol : The square root of the poloidal flux, sqrt(psi-psi_axis), where psi is the poloidal flux 14) rho_pol_norm : The square root of the normalised poloidal flux, sqrt((psi-psi_axis)/(psi_lcf-psi_axis)), where psi is the poloidal flux 20) theta : Geometrical poloidal angle around the magnetic axis 21) theta_straight : Straight field line poloidal angle 22) theta_equal_arc : Equal-arc poloidal angle; a differential of the angle is proportional to the length of the corresponding arc in the poloidal plane. 100) velocity : Total velocity; modulus of the velocity vector 101) velocity_x : Velocity component in the x-direction 102) velocity_y : Velocity component in the y-direction 103) velocity_z : Velocity component in the z-direction 104) velocity_phi : Velocity component in the toroidal direction 105) velocity_parallel : Velocity component parallel to the magnetic field 106) velocity_perpendicular : Velocity perpendicular to the magnetic field 107) velocity_thermal : Velocity normalised to the local thermal velocity of the thermal ions (of the relevant species) 108) velocity_radial : Velocity component in the radial direction 200) momentum : Modulus of the relativistic momentum vector 201) momentum_parallel : Component of the relativistic momentum vector parallel to the magnetic field 202) momentum_perpendicular : Component of the relativistic momentum vector perpendicular to the magnetic field 203) canonical_momentum_phi : Canonical toroidal angular momentum 300) energy_hamiltonian : Hamiltonian energy, including both kinetic and potential energy 301) energy_kinetic : Kinetic energy 302) magnetic_moment : magnetic moment 400) lambda : Ratio, magnetic moment over hamiltonian energy 402) pitch_angle : Angle between the magnetic field and the velocity vector 403) pitch : Ratio, parallel velocity over total velocity 404) pitch_at_min_b : Pitch, ratio between the parallel over the perpendicular velocity, at the minimum value of the magnetic field strength along the guiding centre orbit 500) n_tor : Toroidal mode number, the wave vector toroidal component being defined as k_tor = n_tor grad phi where phi is the toroidal angle so that a positive n_tor means a wave propagating in the positive phi direction
distributions.distribution[:].markers[:].coordinate_identifier[:].description (alpha)		STR_0D		Verbose description
distributions.distribution[:].markers[:].coordinate_identifier[:].index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].markers[:].coordinate_identifier[:].name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].markers[:].orbit_integrals (alpha)		STRUCTURE		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
distributions.distribution[:].markers[:].orbit_integrals.bounce_harmonics (alpha)	[1...N]	INT_1D		Array of bounce harmonics k
distributions.distribution[:].markers[:].orbit_integrals.expressions (alpha)	[1...N]	STR_1D		List of the expressions f(n_tor,m_pol,k,q,...) used in the orbit integrals
distributions.distribution[:].markers[:].orbit_integrals.m_pol (alpha)	[1...N]	INT_1D		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
distributions.distribution[:].markers[:].orbit_integrals.n_tor (alpha)	[1...N]	INT_1D		Array of toroidal mode numbers, n_tor, where quantities vary as exp(i.n_tor.phi) and phi runs anticlockwise when viewed from above
distributions.distribution[:].markers[:].orbit_integrals.values (alpha)	[distributions.distribution[:].markers[:].orbit_integrals.expressions, distributions.distribution[:].markers[:].weights, distributions.distribution[:].markers[:].orbit_integrals.n_tor, distributions.distribution[:].markers[:].orbit_integrals.m_pol, distributions.distribution[:].markers[:].orbit_integrals.bounce_harmonics]	CPX_5D (uncertain)	-	Values of the orbit integrals
distributions.distribution[:].markers[:].orbit_integrals_instant (alpha)		STRUCTURE		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
distributions.distribution[:].markers[:].orbit_integrals_instant.expressions (alpha)	[1...N]	STR_1D		List of the expressions f(eq) used in the orbit integrals
distributions.distribution[:].markers[:].orbit_integrals_instant.time_orbit (alpha)	[1...N]	FLT_1D (uncertain)	s	Time array along the markers last orbit
distributions.distribution[:].markers[:].orbit_integrals_instant.values (alpha)	[distributions.distribution[:].markers[:].orbit_integrals_instant.expressions, distributions.distribution[:].markers[:].weights, distributions.distribution[:].markers[:].orbit_integrals_instant.time_orbit]	CPX_3D (uncertain)	-	Values of the orbit integrals
distributions.distribution[:].markers[:].positions (alpha)	[distributions.distribution[:].markers[:].weights, distributions.distribution[:].markers[:].coordinate_identifier]	FLT_2D (uncertain)	mixed	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
distributions.distribution[:].markers[:].time (alpha)		FLT_0D	s	Time
distributions.distribution[:].markers[:].toroidal_mode (alpha)		INT_0D		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
distributions.distribution[:].markers[:].weights (alpha)	[1...N]	FLT_1D (uncertain)	-	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
distributions.distribution[:].process (alpha)	[1...N]	STRUCT_ARRAY		List all processes (NBI units, fusion reactions, ...) affecting the distribution, identified as in distribution_sources/source(i)/process in the DISTRIBUTION_SOURCES IDS
distributions.distribution[:].process[:].nbi_beamlets_group (alpha)		INT_0D		Index of the NBI beamlets group considered. Refers to the "unit/beamlets_group" array of the NBI IDS. 0 means sum over all beamlets groups.
distributions.distribution[:].process[:].nbi_energy (alpha)		STRUCTURE		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
distributions.distribution[:].process[:].nbi_energy.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].process[:].nbi_energy.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].process[:].nbi_energy.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].process[:].nbi_unit (alpha)		INT_0D		Index of the NBI unit considered. Refers to the "unit" array of the NBI IDS. 0 means sum over all NBI units.
distributions.distribution[:].process[:].reactant_energy (alpha)		STRUCTURE		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
distributions.distribution[:].process[:].reactant_energy.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].process[:].reactant_energy.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].process[:].reactant_energy.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].process[:].type (alpha)		STRUCTURE		Process type. index=1 for NBI; index=2 for nuclear reaction (reaction unspecified); index=3 for nuclear reaction: T(d,n)4He [D+T->He4+n]; index=4 for nuclear reaction: He3(d,p)4He [He3+D->He4+p]; index=5 for nuclear reaction: D(d,p)T [D+D->T+p]; index=6 for nuclear reaction: D(d,n)3He [D+D->He3+n]; index=7 for runaway processes 0) unspecified : unspecified 1) NBI : Source from neutral beam injection 100) nuclear : Source from nuclear reaction (reaction type unspecified) 101) H_H_to_D_positron_nu : Source from nuclear reaction: H+H->D+positron+neutrino 102) H_D_to_He3_gamma : Source from nuclear reaction: H+D->He3+gamma 103) H_T_to_He3_n : Source from nuclear reaction: H+T->He3+neutron 104) H_He3_to_He4_positron_nu : Source from nuclear reaction: H+He3->He4+positron+neutrino 105) D_D_to_T_H : Source from nuclear reaction: D+D->T+H 106) D_D_to_He3_n : Source from nuclear reaction: D+D->He3+neutron 107) D_T_to_He4_n : Source from nuclear reaction: T+D->He4+neutron 108) D_He3_to_He4_H : Source from nuclear reaction: He3+D->He4+H 109) T_T_to_He4_n_n : Source from nuclear reaction: T+T->He4+neutron+neutron 110) T_He3_to_He4_H_n : Source from nuclear reaction: He3+T->He4+H+neutron 111) He3_He3_to_He4_H_H : Source from nuclear reaction: He3+He3->He4+neutron+neutron 112) He3_He4_to_Be7_gamma : Source from nuclear reaction: He3+He4->Be7+gamma 113) Li6_n_to_He4_T : Source from nuclear reaction: Li6+n->He4+T 114) Li7_n_to_He4_T_n : Source from nuclear reaction: Li7+n->He4+T+n 1000) runaway : Source from runaway processes
distributions.distribution[:].process[:].type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].process[:].type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].process[:].type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].profiles_1d (alpha)	[distributions.distribution[:].profiles_1d[:].time]	STRUCT_ARRAY		Radial profiles (flux surface averaged quantities) for various time slices
distributions.distribution[:].profiles_1d[:].co_passing (alpha)		STRUCTURE		Flux surface averaged profile evaluated using the co-passing particle part of the distribution.
distributions.distribution[:].profiles_1d[:].co_passing.collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].co_passing.collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_1d[:].co_passing.current_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].co_passing.current_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].co_passing.density (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].co_passing.density_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_1d[:].co_passing.pressure (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].co_passing.pressure_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_1d[:].co_passing.pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_1d[:].co_passing.source (alpha)	[1...N]	STRUCT_ARRAY		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
distributions.distribution[:].profiles_1d[:].co_passing.source[:].energy (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Source rate of energy density
distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier (alpha)		STRUCTURE		Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.process_index (alpha)		INT_0D		Index into distribution/process
distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.type (alpha)		STRUCTURE		Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].profiles_1d[:].co_passing.source[:].identifier.wave_index (alpha)		INT_0D		Index into distribution/wave
distributions.distribution[:].profiles_1d[:].co_passing.source[:].momentum_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Source rate of toroidal angular momentum density
distributions.distribution[:].profiles_1d[:].co_passing.source[:].particles (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	s^-1.m^-3	Source rate of thermal particle density
distributions.distribution[:].profiles_1d[:].co_passing.torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].profiles_1d[:].collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_1d[:].collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_1d[:].collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_1d[:].collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_1d[:].collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_1d[:].collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_1d[:].collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_1d[:].collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_1d[:].collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_1d[:].collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_1d[:].collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_1d[:].counter_passing (alpha)		STRUCTURE		Flux surface averaged profile evaluated using the counter-passing particle part of the distribution.
distributions.distribution[:].profiles_1d[:].counter_passing.collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].counter_passing.collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_1d[:].counter_passing.current_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].counter_passing.current_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].counter_passing.density (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].counter_passing.density_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_1d[:].counter_passing.pressure (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].counter_passing.pressure_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_1d[:].counter_passing.pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_1d[:].counter_passing.source (alpha)	[1...N]	STRUCT_ARRAY		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
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].energy (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Source rate of energy density
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier (alpha)		STRUCTURE		Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.process_index (alpha)		INT_0D		Index into distribution/process
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.type (alpha)		STRUCTURE		Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].identifier.wave_index (alpha)		INT_0D		Index into distribution/wave
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].momentum_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Source rate of toroidal angular momentum density
distributions.distribution[:].profiles_1d[:].counter_passing.source[:].particles (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	s^-1.m^-3	Source rate of thermal particle density
distributions.distribution[:].profiles_1d[:].counter_passing.torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].profiles_1d[:].current_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].current_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].density (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].density_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_1d[:].fast_filter (alpha)		STRUCTURE		Description of how the fast and the thermal particle populations are separated
distributions.distribution[:].profiles_1d[:].fast_filter.energy (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	eV	Energy at which the fast and thermal particle populations were separated, as a function of radius
distributions.distribution[:].profiles_1d[:].fast_filter.method (alpha)		STRUCTURE		Method used to separate the fast and thermal particle population (indices TBD)
distributions.distribution[:].profiles_1d[:].fast_filter.method.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].profiles_1d[:].fast_filter.method.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].profiles_1d[:].fast_filter.method.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].profiles_1d[:].grid (alpha)		STRUCTURE		Radial grid
distributions.distribution[:].profiles_1d[:].grid.area (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^2	Cross-sectional area of the flux surface
distributions.distribution[:].profiles_1d[:].grid.psi (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	Wb	Poloidal magnetic flux
distributions.distribution[:].profiles_1d[:].grid.psi_boundary (alpha)		FLT_0D (uncertain)	Wb	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)
distributions.distribution[:].profiles_1d[:].grid.psi_magnetic_axis (alpha)		FLT_0D (uncertain)	Wb	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)
distributions.distribution[:].profiles_1d[:].grid.rho_pol_norm (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	-	Normalised poloidal flux coordinate = sqrt((psi(rho)-psi(magnetic_axis)) / (psi(LCFS)-psi(magnetic_axis)))
distributions.distribution[:].profiles_1d[:].grid.rho_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m	Toroidal flux coordinate. rho_tor = sqrt(b_flux_tor/(pi*b0)) ~ sqrt(pi*r^2*b0/(pi*b0)) ~ r [m]. The toroidal field used in its definition is indicated under vacuum_toroidal_field/b0
distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm (alpha)	[1...N]	FLT_1D (uncertain)	-	Normalised toroidal flux coordinate. The normalizing value for rho_tor_norm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation, see time_slice/boundary/b_flux_pol_norm in the equilibrium IDS)
distributions.distribution[:].profiles_1d[:].grid.surface (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^2	Surface area of the toroidal flux surface
distributions.distribution[:].profiles_1d[:].grid.volume (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^3	Volume enclosed inside the magnetic surface
distributions.distribution[:].profiles_1d[:].pressure (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].pressure_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_1d[:].pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_1d[:].source (alpha)	[1...N]	STRUCT_ARRAY		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
distributions.distribution[:].profiles_1d[:].source[:].energy (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Source rate of energy density
distributions.distribution[:].profiles_1d[:].source[:].identifier (alpha)		STRUCTURE		Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distributions.distribution[:].profiles_1d[:].source[:].identifier.process_index (alpha)		INT_0D		Index into distribution/process
distributions.distribution[:].profiles_1d[:].source[:].identifier.type (alpha)		STRUCTURE		Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distributions.distribution[:].profiles_1d[:].source[:].identifier.type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].profiles_1d[:].source[:].identifier.type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].profiles_1d[:].source[:].identifier.type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].profiles_1d[:].source[:].identifier.wave_index (alpha)		INT_0D		Index into distribution/wave
distributions.distribution[:].profiles_1d[:].source[:].momentum_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Source rate of toroidal angular momentum density
distributions.distribution[:].profiles_1d[:].source[:].particles (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	s^-1.m^-3	Source rate of thermal particle density
distributions.distribution[:].profiles_1d[:].thermalisation (alpha)		STRUCTURE		Flux surface averaged source of thermal particles, momentum and energy due to thermalisation. Here thermalisation refers to non-thermal particles, sufficiently assimilated to the thermal background to be re-categorised 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.
distributions.distribution[:].profiles_1d[:].thermalisation.energy (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Source rate of energy density within the thermal particle population due to the thermalisation of fast particles
distributions.distribution[:].profiles_1d[:].thermalisation.momentum_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Source rate of toroidal angular momentum density within the thermal particle population due to the thermalisation of fast particles
distributions.distribution[:].profiles_1d[:].thermalisation.particles (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	s^-1.m^-3	Source rate of thermal particle density due to the thermalisation of fast particles
distributions.distribution[:].profiles_1d[:].time (alpha)		FLT_0D	s	Time
distributions.distribution[:].profiles_1d[:].torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].profiles_1d[:].trapped (alpha)		STRUCTURE		Flux surface averaged profile evaluated using the trapped particle part of the distribution.
distributions.distribution[:].profiles_1d[:].trapped.collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_1d[:].trapped.collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_1d[:].trapped.current_fast_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].trapped.current_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_1d[:].trapped.density (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].trapped.density_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_1d[:].trapped.pressure (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_1d[:].trapped.pressure_fast (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_1d[:].trapped.pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_1d[:].trapped.source (alpha)	[1...N]	STRUCT_ARRAY		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
distributions.distribution[:].profiles_1d[:].trapped.source[:].energy (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	W.m^-3	Source rate of energy density
distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier (alpha)		STRUCTURE		Identifier of the wave or particle source process, defined respectively in distribution/wave or distribution/process
distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.process_index (alpha)		INT_0D		Index into distribution/process
distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.type (alpha)		STRUCTURE		Type of the source term. Index = 1 for a wave, index = 2 for a particle source process
distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].profiles_1d[:].trapped.source[:].identifier.wave_index (alpha)		INT_0D		Index into distribution/wave
distributions.distribution[:].profiles_1d[:].trapped.source[:].momentum_tor (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Source rate of toroidal angular momentum density
distributions.distribution[:].profiles_1d[:].trapped.source[:].particles (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	s^-1.m^-3	Source rate of thermal particle density
distributions.distribution[:].profiles_1d[:].trapped.torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_1d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].profiles_2d (alpha)	[distributions.distribution[:].profiles_2d[:].time]	STRUCT_ARRAY		2D profiles in the poloidal plane for various time slices
distributions.distribution[:].profiles_2d[:].co_passing (alpha)		STRUCTURE		Flux surface averaged profile evaluated using the co-passing particle part of the distribution.
distributions.distribution[:].profiles_2d[:].co_passing.collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].co_passing.collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_2d[:].co_passing.current_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].co_passing.current_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].co_passing.density (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].co_passing.density_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_2d[:].co_passing.pressure (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].co_passing.pressure_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_2d[:].co_passing.pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_2d[:].co_passing.torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].profiles_2d[:].collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_2d[:].collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_2d[:].collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_2d[:].collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_2d[:].collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_2d[:].collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_2d[:].collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_2d[:].collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_2d[:].collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_2d[:].collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_2d[:].collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_2d[:].counter_passing (alpha)		STRUCTURE		Flux surface averaged profile evaluated using the counter-passing particle part of the distribution.
distributions.distribution[:].profiles_2d[:].counter_passing.collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].counter_passing.collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_2d[:].counter_passing.current_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].counter_passing.current_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].counter_passing.density (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].counter_passing.density_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_2d[:].counter_passing.pressure (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].counter_passing.pressure_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_2d[:].counter_passing.pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_2d[:].counter_passing.torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].profiles_2d[:].current_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].current_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].density (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].density_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_2d[:].grid (alpha)		STRUCTURE		Grid. The grid has to be rectangular in a pair of coordinates, as specified in type
distributions.distribution[:].profiles_2d[:].grid.area (alpha)	[distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^2	Cross-sectional area of the flux surface
distributions.distribution[:].profiles_2d[:].grid.psi (alpha)	[distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	Wb	Poloidal magnetic flux
distributions.distribution[:].profiles_2d[:].grid.r (alpha)	[1...N]	FLT_1D (uncertain)	m	Major radius
distributions.distribution[:].profiles_2d[:].grid.rho_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m	Toroidal flux coordinate. The toroidal field used in its definition is indicated under vacuum_toroidal_field/b0
distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm (alpha)	[1...N]	FLT_1D (uncertain)	-	Normalised toroidal flux coordinate. The normalizing value for rho_tor_norm, is the toroidal flux coordinate at the equilibrium boundary (LCFS or 99.x % of the LCFS in case of a fixed boundary equilibium calculation)
distributions.distribution[:].profiles_2d[:].grid.theta_geometric (alpha)	[1...N]	FLT_1D (uncertain)	rad	Geometrical poloidal angle
distributions.distribution[:].profiles_2d[:].grid.theta_straight (alpha)	[1...N]	FLT_1D (uncertain)	rad	Straight field line poloidal angle
distributions.distribution[:].profiles_2d[:].grid.type (alpha)	[distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm]	STRUCTURE	m^3	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.
distributions.distribution[:].profiles_2d[:].grid.type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].profiles_2d[:].grid.type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].profiles_2d[:].grid.type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].profiles_2d[:].grid.volume (alpha)	[distributions.distribution[:].profiles_2d[:].grid.rho_tor_norm]	FLT_1D (uncertain)	m^3	Volume enclosed inside the magnetic surface
distributions.distribution[:].profiles_2d[:].grid.z (alpha)	[1...N]	FLT_1D (uncertain)	m	Height
distributions.distribution[:].profiles_2d[:].pressure (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].pressure_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_2d[:].pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_2d[:].time (alpha)		FLT_0D	s	Time
distributions.distribution[:].profiles_2d[:].torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].profiles_2d[:].trapped (alpha)		STRUCTURE		Flux surface averaged profile evaluated using the trapped particle part of the distribution.
distributions.distribution[:].profiles_2d[:].trapped.collisions (alpha)		STRUCTURE		Power and torque exchanged between the species described by the distribution and the different plasma species through collisions
distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons (alpha)		STRUCTURE		Collisional exchange with electrons
distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.electrons.torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various ion species
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].label (alpha)		STR_0D		String identifying the species (e.g. H+, D+, T+, He+2, C+, D2, DT, CD4, ...)
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].multiple_states_flag (alpha)		INT_0D		Multiple state calculation flag : 0-Only one state is considered; 1-Multiple states are considered and are described in the state structure
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].neutral_index (alpha)		INT_0D		Index of the corresponding neutral species in the ../../neutral array
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state (alpha)	[1...N]	STRUCT_ARRAY		Collisional exchange with the various states of the ion species (ionisation, energy, excitation, ...)
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].label (alpha)		STR_0D		String identifying charge state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].power_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the fast particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].power_thermal (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	W.m^-3	Collisional power density to the thermal particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].state[:].z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].torque_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the fast particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].torque_thermal_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Collisional toroidal torque density to the thermal particle population
distributions.distribution[:].profiles_2d[:].trapped.collisions.ion[:].z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed).
distributions.distribution[:].profiles_2d[:].trapped.current_fast_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density of fast (non-thermal) particles (excluding electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].trapped.current_tor (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	A.m^-2	Total toroidal driven current density (including electron and thermal ion back-current, or drag-current)
distributions.distribution[:].profiles_2d[:].trapped.density (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].trapped.density_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	m^-3	Density of fast particles
distributions.distribution[:].profiles_2d[:].trapped.pressure (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure (thermal+non-thermal)
distributions.distribution[:].profiles_2d[:].trapped.pressure_fast (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles
distributions.distribution[:].profiles_2d[:].trapped.pressure_fast_parallel (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	J.m^-3	Pressure of fast particles in the parallel direction
distributions.distribution[:].profiles_2d[:].trapped.torque_tor_j_radial (alpha)	[distributions.distribution[:].profiles_2d[:].grid.r, distributions.distribution[:].profiles_2d[:].grid.z]	FLT_2D (uncertain)	N.m^-2	Toroidal torque due to radial currents
distributions.distribution[:].species (alpha)		STRUCTURE		Species described by this distribution
distributions.distribution[:].species.ion (alpha)		STRUCTURE		Description of the ion or neutral species, used if type/index = 2 or 3
distributions.distribution[:].species.ion.element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].species.ion.element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].species.ion.element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].species.ion.element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].species.ion.element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].species.ion.label (alpha)		STR_0D		String identifying ion (e.g. H+, D+, T+, He+2, C+, ...)
distributions.distribution[:].species.ion.state (alpha)		STRUCTURE		Quantities related to the different states of the species (ionisation, energy, excitation, ...)
distributions.distribution[:].species.ion.state.electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].species.ion.state.label (alpha)		STR_0D		String identifying ion state (e.g. C+, C+2 , C+3, C+4, C+5, C+6, ...)
distributions.distribution[:].species.ion.state.vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].species.ion.state.vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].species.ion.state.z_max (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Maximum Z of the charge state bundle (equal to z_min if no bundle)
distributions.distribution[:].species.ion.state.z_min (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Minimum Z of the charge state bundle (z_min = z_max = 0 for a neutral)
distributions.distribution[:].species.ion.z_ion (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Ion charge (of the dominant ionisation state; lumped ions are allowed)
distributions.distribution[:].species.neutral (alpha)		STRUCTURE		Description of the neutral species, used if type/index = 4 or 5
distributions.distribution[:].species.neutral.element (alpha)	[1...N]	STRUCT_ARRAY		List of elements forming the atom or molecule
distributions.distribution[:].species.neutral.element[:].a (alpha)		FLT_0D (uncertain)	Atomic Mass Unit	Mass of atom
distributions.distribution[:].species.neutral.element[:].atoms_n (alpha)		INT_0D		Number of atoms of this element in the molecule
distributions.distribution[:].species.neutral.element[:].multiplicity (obsolescent)		FLT_0D (uncertain)	Elementary Charge Unit	Multiplicity of the atom
distributions.distribution[:].species.neutral.element[:].z_n (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Nuclear charge
distributions.distribution[:].species.neutral.label (alpha)		STR_0D		String identifying neutral (e.g. H, D, T, He, C, ...)
distributions.distribution[:].species.neutral.state (alpha)		STRUCTURE		State of the species (energy, excitation, ...)
distributions.distribution[:].species.neutral.state.electron_configuration (alpha)		STR_0D		Configuration of atomic orbitals of this state, e.g. 1s2-2s1
distributions.distribution[:].species.neutral.state.label (alpha)		STR_0D		String identifying neutral state
distributions.distribution[:].species.neutral.state.neutral_type (alpha)		STRUCTURE		Neutral type, in terms of energy. ID =1: cold; 2: thermal; 3: fast; 4: NBI 1) cold : Cold neutrals 2) thermal : Thermal neutrals 3) fast : Fast neutrals 4) nbi : NBI neutrals
distributions.distribution[:].species.neutral.state.neutral_type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].species.neutral.state.neutral_type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].species.neutral.state.neutral_type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].species.neutral.state.vibrational_level (alpha)		FLT_0D (uncertain)	Elementary Charge Unit	Vibrational level (can be bundled)
distributions.distribution[:].species.neutral.state.vibrational_mode (alpha)		STR_0D		Vibrational mode of this state, e.g. "A_g". Need to define, or adopt a standard nomenclature.
distributions.distribution[:].species.type (alpha)		STRUCTURE		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 0) unspecified : unspecified 1) electron : Electron 2) ion : Ion species in a single/average state; refer to ion-structure 3) ion_state : Ion species in a particular state; refer to ion/state-structure 4) neutral : Neutral species in a single/average state; refer to neutral-structure 5) neutral_state : Neutral species in a particular state; refer to neutral/state-structure 6) neutron : Neutron 7) photon : Photon
distributions.distribution[:].species.type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].species.type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].species.type.name (alpha)		STR_0D		Short string identifier
distributions.distribution[:].wave (alpha)	[1...N]	STRUCT_ARRAY		List all waves affecting the distribution, identified as in waves/coherent_wave(i)/identifier in the waves IDS
distributions.distribution[:].wave[:].antenna_name (alpha)		STR_0D		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.
distributions.distribution[:].wave[:].index_in_antenna (alpha)		INT_0D		Index of the wave (starts at 1), separating different waves generated from a single antenna.
distributions.distribution[:].wave[:].type (alpha)		STRUCTURE		Wave/antenna type. index=1 for name=EC; index=2 for name=IC; index=3 for name=LH 0) unspecified : unspecified 1) EC : Wave field for electron cyclotron heating and current drive 2) LH : Wave field for lower hybrid heating and current drive 3) IC : Wave field for ion cyclotron frequency heating and current drive
distributions.distribution[:].wave[:].type.description (alpha)		STR_0D		Verbose description
distributions.distribution[:].wave[:].type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.distribution[:].wave[:].type.name (alpha)		STR_0D		Short string identifier
distributions.ids_properties (alpha)		STRUCTURE		Interface Data Structure properties. This element identifies the node above as an IDS
distributions.ids_properties.comment (alpha)		STR_0D		Any comment describing the content of this IDS
distributions.ids_properties.creation_date (alpha)		STR_0D		Date at which this data has been produced
distributions.ids_properties.homogeneous_time (alpha)		INT_0D		This node must be filled (with 0, 1, or 2) for the IDS to be valid. If 1, the time of this IDS is homogeneous, i.e. the time values for this IDS are stored in the time node just below the root of this IDS. If 0, the time values are stored in the various time fields at lower levels in the tree. In the case only constant or static nodes are filled within the IDS, homogeneous_time must be set to 2
distributions.ids_properties.name (alpha)		STR_0D		User-defined name for this IDS occurrence
distributions.ids_properties.occurrence		INT_0D
distributions.ids_properties.occurrence_type (alpha)		STRUCTURE		Type of data contained in this occurrence 1) reconstruction : Equilibrium reconstruction 2) prediction_fixed : Equilibrium prediction, fixed boundary 3) prediction_free : Equilibrium prediction, free boundary 4) mapping : Used for mapping equilibrium results from one grid type / resolution to another, or for including variables not present in the first set such as the calculation of magnetic field of other derived parameters
distributions.ids_properties.occurrence_type.description (alpha)		STR_0D		Verbose description
distributions.ids_properties.occurrence_type.index (alpha)		INT_0D		Integer identifier (enumeration index within a list). Private identifier values must be indicated by a negative index.
distributions.ids_properties.occurrence_type.name (alpha)		STR_0D		Short string identifier
distributions.ids_properties.plugins (alpha)		STRUCTURE		Information about the plugins used to write/read this IDS. This structure is filled automatically by the Access Layer at GET/PUT time, no need to fill it via a user program.
distributions.ids_properties.plugins.infrastructure_get (alpha)		STRUCTURE		Plugin infrastructure used to GET the data
distributions.ids_properties.plugins.infrastructure_get.commit (alpha)		STR_0D		Unique commit reference of software
distributions.ids_properties.plugins.infrastructure_get.description (alpha)		STR_0D		Short description of the software (type, purpose)
distributions.ids_properties.plugins.infrastructure_get.name (alpha)		STR_0D		Name of software used
distributions.ids_properties.plugins.infrastructure_get.repository (alpha)		STR_0D		URL of software repository
distributions.ids_properties.plugins.infrastructure_get.version (alpha)		STR_0D		Unique version (tag) of software
distributions.ids_properties.plugins.infrastructure_put (alpha)		STRUCTURE		Plugin infrastructure used to PUT the data
distributions.ids_properties.plugins.infrastructure_put.commit (alpha)		STR_0D		Unique commit reference of software
distributions.ids_properties.plugins.infrastructure_put.description (alpha)		STR_0D		Short description of the software (type, purpose)
distributions.ids_properties.plugins.infrastructure_put.name (alpha)		STR_0D		Name of software used
distributions.ids_properties.plugins.infrastructure_put.repository (alpha)		STR_0D		URL of software repository
distributions.ids_properties.plugins.infrastructure_put.version (alpha)		STR_0D		Unique version (tag) of software
distributions.ids_properties.plugins.node (alpha)	[1...N]	STRUCT_ARRAY		Set of IDS nodes for which a plugin has been applied
distributions.ids_properties.plugins.node[:].get_operation (alpha)	[1...N]	STRUCT_ARRAY		Plugins actually used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application). This information is filled by the plugin infrastructure during the GET operation.
distributions.ids_properties.plugins.node[:].get_operation[:].commit (alpha)		STR_0D		Unique commit reference of software
distributions.ids_properties.plugins.node[:].get_operation[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
distributions.ids_properties.plugins.node[:].get_operation[:].name (alpha)		STR_0D		Name of software used
distributions.ids_properties.plugins.node[:].get_operation[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
distributions.ids_properties.plugins.node[:].get_operation[:].repository (alpha)		STR_0D		URL of software repository
distributions.ids_properties.plugins.node[:].get_operation[:].version (alpha)		STR_0D		Unique version (tag) of software
distributions.ids_properties.plugins.node[:].path (alpha)		STR_0D		Path of the node within the IDS, following the syntax given in the link below. If empty, means the plugin applies to the whole IDS.
distributions.ids_properties.plugins.node[:].put_operation (alpha)	[1...N]	STRUCT_ARRAY		Plugins used to PUT a node (potentially, multiple plugins can be applied, if so they are listed by order of application)
distributions.ids_properties.plugins.node[:].put_operation[:].commit (alpha)		STR_0D		Unique commit reference of software
distributions.ids_properties.plugins.node[:].put_operation[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
distributions.ids_properties.plugins.node[:].put_operation[:].name (alpha)		STR_0D		Name of software used
distributions.ids_properties.plugins.node[:].put_operation[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
distributions.ids_properties.plugins.node[:].put_operation[:].repository (alpha)		STR_0D		URL of software repository
distributions.ids_properties.plugins.node[:].put_operation[:].version (alpha)		STR_0D		Unique version (tag) of software
distributions.ids_properties.plugins.node[:].readback (alpha)	[1...N]	STRUCT_ARRAY		Plugins to be used to read back a node (potentially, multiple plugins can be applied, listed in reverse order of application)
distributions.ids_properties.plugins.node[:].readback[:].commit (alpha)		STR_0D		Unique commit reference of software
distributions.ids_properties.plugins.node[:].readback[:].description (alpha)		STR_0D		Short description of the software (type, purpose)
distributions.ids_properties.plugins.node[:].readback[:].name (alpha)		STR_0D		Name of software used
distributions.ids_properties.plugins.node[:].readback[:].parameters (alpha)		STR_0D		List of the code specific parameters in XML format
distributions.ids_properties.plugins.node[:].readback[:].repository (alpha)		STR_0D		URL of software repository
distributions.ids_properties.plugins.node[:].readback[:].version (alpha)		STR_0D		Unique version (tag) of software
distributions.ids_properties.provenance (alpha)		STRUCTURE		Provenance information about this IDS
distributions.ids_properties.provenance.node (alpha)	[1...N]	STRUCT_ARRAY		Set of IDS nodes for which the provenance is given. The provenance information applies to the whole structure below the IDS node. For documenting provenance information for the whole IDS, set the size of this array of structure to 1 and leave the child "path" node empty
distributions.ids_properties.provenance.node[:].path (alpha)		STR_0D		Path of the node within the IDS, following the syntax given in the link below. If empty, means the provenance information applies to the whole IDS.
distributions.ids_properties.provenance.node[:].sources (alpha)	[1...N]	STR_1D		List of sources used to import or calculate this node, identified as explained below. In case the node is the result of of a calculation / data processing, the source is an input to the process described in the "code" structure at the root of the IDS. The source can be an IDS (identified by a URI or a persitent identifier, see syntax in the link below) or non-IDS data imported directly from an non-IMAS database (identified by the command used to import the source, or the persistent identifier of the data source). Often data are obtained by a chain of processes, however only the last process input are recorded here. The full chain of provenance has then to be reconstructed recursively from the provenance information contained in the data sources.
distributions.ids_properties.provider (alpha)		STR_0D		Name of the person in charge of producing this data
distributions.ids_properties.source (obsolescent)		STR_0D		Source of the data (any comment describing the origin of the data : code, path to diagnostic signals, processing method, ...). Superseeded by the new provenance structure.
distributions.ids_properties.version_put (alpha)		STRUCTURE		Version of the access layer package used to PUT this IDS
distributions.ids_properties.version_put.access_layer (alpha)		STR_0D		Version of Access Layer used to PUT this IDS
distributions.ids_properties.version_put.access_layer_language (alpha)		STR_0D		Programming language of the Access Layer high level API used to PUT this IDS
distributions.ids_properties.version_put.data_dictionary (alpha)		STR_0D		Version of Data Dictionary used to PUT this IDS
distributions.magnetic_axis (alpha)		STRUCTURE		Magnetic axis position (used to define a poloidal angle for the 2D profiles)
distributions.magnetic_axis.r (alpha)	[distributions.time]	FLT_1D (uncertain)	m	Major radius
distributions.magnetic_axis.z (alpha)	[distributions.time]	FLT_1D (uncertain)	m	Height
distributions.time (alpha)	[1...N]	FLT_1D_TYPE	s	Generic time
distributions.vacuum_toroidal_field (alpha)		STRUCTURE		Characteristics of the vacuum toroidal field (used in rho_tor definition and in the normalization of current densities)
distributions.vacuum_toroidal_field.b0 (alpha)	[distributions.time]	FLT_1D (uncertain)	T	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.
distributions.vacuum_toroidal_field.r0 (alpha)		FLT_0D (uncertain)	m	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)