Evolves variables a single time-step according to BRAGINSKII model ... parallel mappings - map to canonical
| Type | Intent | Optional | Attributes | Name | ||
|---|---|---|---|---|---|---|
| type(comm_handler_t), | intent(in) | :: | comm_handler |
Communicators |
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| class(equilibrium_t), | intent(inout) | :: | equi |
Equilibrium |
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| class(equilibrium_storage_t), | intent(inout) | :: | equi_on_cano |
Equilibrim quantities on canonical mesh |
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| class(equilibrium_storage_t), | intent(inout) | :: | equi_on_stag |
Equilibrim quantities on staggered mesh |
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| type(mesh_cart_t), | intent(inout) | :: | mesh_cano |
Mesh (canonical) within poloidal plane |
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| type(mesh_cart_t), | intent(inout) | :: | mesh_stag |
Mesh (staggered) within poloidal plane |
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| class(helmholtz_solver_t), | intent(inout) | :: | hsolver_cano |
Elliptic (2D) solver on canonical mesh |
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| class(helmholtz_solver_t), | intent(inout) | :: | hsolver_stag |
Elliptic (2D) solver on staggered mesh |
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| type(parallel_map_t), | intent(in) | :: | map |
Parallel map |
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| type(penalisation_t), | intent(in) | :: | penalisation_cano |
Penalisation (canonical) |
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| type(penalisation_t), | intent(in) | :: | penalisation_stag |
Penalisation (staggered) |
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| type(polars_t), | intent(in) | :: | polars_cano |
Polar grid and operators (canonical) |
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| type(polars_t), | intent(in) | :: | polars_stag |
Polar grid and operators (staggered) |
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| type(inplane_operators_t), | intent(inout) | :: | opsinplane_cano |
In-plane operators (canonical) |
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| type(inplane_operators_t), | intent(inout) | :: | opsinplane_stag |
In-plane operators (staggered) |
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| type(boundaries_braginskii_t), | intent(inout) | :: | boundaries |
Boundary information for the BRAGINSKII model |
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| real(kind=GP), | intent(in), | dimension(mesh_cano%get_n_points()) | :: | cf_buffer_cano |
Buffer function on canonical mesh |
|
| real(kind=GP), | intent(in), | dimension(mesh_stag%get_n_points()) | :: | cf_buffer_stag |
Buffer function on staggered mesh |
|
| real(kind=GP), | intent(in), | dimension(mesh_cano%get_n_points()) | :: | cf_diss_cano |
Dissipation envelope function on canonical mesh |
|
| real(kind=GP), | intent(in), | dimension(mesh_stag%get_n_points()) | :: | cf_diss_stag |
Dissipation envelope function on canonical mesh |
|
| real(kind=GP), | intent(inout) | :: | tau |
Time, at output tau + dtau |
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| type(variable_t), | intent(inout) | :: | ne |
Electron density |
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| real(kind=GP), | intent(in), | dimension(mesh_cano%get_n_points_inner()) | :: | src_ne |
Particle source on inner grid points |
|
| type(karniadakis_t), | intent(inout) | :: | tstep_continuity |
Time-step integrator for electron density |
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| type(variable_t), | intent(inout) | :: | pot |
Electrostatic potential |
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| type(variable_t), | intent(inout) | :: | vort |
Generalised vorticity |
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| real(kind=GP), | intent(in), | dimension(mesh_cano%get_n_points_inner()) | :: | src_vort |
Vorticity source on inner grid points |
|
| type(karniadakis_t), | intent(inout) | :: | tstep_vort |
Time-step integrator for vorticity equation |
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| type(variable_t), | intent(inout) | :: | upar |
Parallel ion velocity |
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| real(kind=GP), | intent(in), | dimension(mesh_stag%get_n_points_inner()) | :: | src_upar |
Parallel ion velocity source on inner grid points |
|
| type(karniadakis_t), | intent(inout) | :: | tstep_parmom |
Time-step integrator for parallel momentum equation |
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| type(variable_t), | intent(inout) | :: | jpar |
Parallel current |
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| type(variable_t), | intent(inout) | :: | apar |
Parallel electromagnetic potential |
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| type(variable_t), | intent(inout) | :: | apar_fluct |
Fluctuation of apar used for flutter operators |
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| type(karniadakis_t), | intent(inout) | :: | tstep_ohm |
Time-step integrator for Ohm's law |
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| type(variable_t), | intent(inout) | :: | te |
Electron temperature |
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| real(kind=GP), | intent(in), | dimension(mesh_cano%get_n_points_inner()) | :: | src_te |
Electron temperature source on inner grid points |
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| type(karniadakis_t), | intent(inout) | :: | tstep_etemp |
Time-step integrator for electron temperature equation |
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| type(variable_t), | intent(inout) | :: | ti |
Ion temperature |
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| real(kind=GP), | intent(in), | dimension(mesh_cano%get_n_points_inner()) | :: | src_ti |
Ion temperature source on inner grid points |
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| type(karniadakis_t), | intent(inout) | :: | tstep_itemp |
Time-step integrator for ion temperature equation |
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| type(gyroviscosity_t), | intent(inout) | :: | gstress |
Gyroviscosity |
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| integer, | intent(inout), | dimension(tinfo_size) | :: | tinfo |
Info status (integers) |
|
| real(kind=GP), | intent(inout), | dimension(tinfo_size,2) | :: | rinfo |
Info status (float) |
|
| logical, | intent(out) | :: | success_plasma |
Success flag for timestep |