1 #ifndef UPDATE_ANALYTIC_F0_HPP
2 #define UPDATE_ANALYTIC_F0_HPP
11 View<double*, CLayout, DeviceType>
get_adiabatic_response(
const ElectricField<DeviceType>& electric_field,
const Species<DeviceType>& species,
double dpot_te_limit,
const View<double*, CLayout, DeviceType> non_f0_energy = View<double*, CLayout, DeviceType>(
"non_f0_energy", 0));
Definition: velocity_grid.hpp:8
subroutine plasma(grid, itr, p, dene_out, deni_out, Te_out, Ti_out, Vparai_out)
Calculate the plasma density, temperature, and parallel velocity for a point in triangle itr using pl...
Definition: neutral_totalf.F90:1224
Definition: magnetic_field.hpp:12
Definition: electric_field.hpp:41
KOKKOS_INLINE_FUNCTION double get_adiabatic_response(const SimdVector &E, const SimdVector &E00, const Simd< double > &ddpotdt, double yp_r, double yp_z, double yp_p, double r, double inv_temp, int i_simd)
Definition: em_push_physics.tpp:115
Definition: magnetic_field.F90:1
Definition: plasma.hpp:13
Definition: species.hpp:75
void all_species_f0_update_analytic_f0(const Simulation< DeviceType > &sml, const Grid< DeviceType > &grid, const VelocityGrid &vgrid, const DomainDecomposition< DeviceType > &pol_decomp, const MagneticField< DeviceType > &magnetic_field, const ElectricField< DeviceType > &electric_field, Plasma &plasma)
Definition: update_analytic_f0.cpp:582