1D1V Landau Damping Initial Condition for the Fields This is an Ex (1D Electric) Field consistent with a Maxwellian distribution with sinusoidally-varying spatial variation with a uniformly-distributed opposite chage: E_x(x) = +Z_i n_0 (omega_p tau)^2 (delta_p/L) (alpha/k) sin(kx) See the paper: Physics-Based-Adaptive Plasma Model for High-Fidelity Numerical Simulations https://www.frontiersin.org/articles/10.3389/fphy.2018.00105/full Equation 121
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1D1V Landau Damping Initial Condition for the Fields This is an Ex (1D Electric) Field consistent with a Maxwellian distribution with sinusoidally-varying spatial variation with a uniformly-distributed opposite chage: E_x(x) = +Z_i n_0 (omega_p tau)^2 (delta_p/L) (alpha/k) sin(kx) See the paper: Physics-Based-Adaptive Plasma Model for High-Fidelity Numerical Simulations https://www.frontiersin.org/articles/10.3389/fphy.2018.00105/full Equation 121
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| Kinetics1d1vLandauDampingField () |
| Constructor.
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| ~Kinetics1d1vLandauDampingField () override |
| Destructor.
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void | setup (const WxCryptSet &wxc) override |
| Setup.
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const std::vector< int > & | getOutputVariableIndexes (int flag) const override |
| Grab output variable indices.
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void | evaluate_function (const real *q, const real *aux, const solverVariables_t *pSV, real *result) const override |
| Redefinition of the function evaluator.
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| WmApplication () |
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virtual | ~WmApplication ()=default |
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virtual void | setup (const WxCryptSet &wxc) |
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virtual const std::vector< int > & | getAuxiliaryVariableIndexes (int flag=WMAPPLICATIONFLAG_NONE) const |
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virtual const std::vector< int > & | getCrossVariableIndexes (int flag=WMAPPLICATIONFLAG_NONE) const |
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const std::vector< std::string > & | getBoundaryNames () const |
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bool | isOnBoundary (const std::string &boundaryName) const |
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bool | has (int flag) const |
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virtual real | numerical_flux (const real *q_l, const real *q_r, const real *aux_l, const real *aux_r, const solverVariables_t *pFV, real *numericalFlux) const |
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virtual real | internal_flux (const real *q, const real *aux, const solverVariables_t *pSV, std::vector< std::vector< real > > &internalFlux) const |
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virtual real | source (const real *q, const real *aux, const elementGeometry_t *pEG, real *source) const |
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virtual void | bc_q (const real *q_in, const real *aux_in, const real *aux_out, const solverVariables_t *pFV, real *q_out) const |
| Boundary Condition Application which sets the boundary condition on ghost nodes.
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virtual real | bcNumericalFlux (const real *q_l, const real *q_r, const real *aux_l, const real *aux_r, const solverVariables_t *pFV, real *numericalFlux) const |
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virtual void | conserved_to_primitive (const real *q, const real *aux, real *w) const |
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virtual void | primitive_to_conserved (const real *w, const real *aux, real *q) const |
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virtual void | evaluate_function (const real *q, const real *aux, const solverVariables_t *pSV, real *result) const |
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virtual void | bc_q_kinetic (const real *q_in, const real *aux_in, const solverVariables_t *pFV, real *q_out) const |
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std::shared_ptr< std::string > | app_name () |
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virtual const std::vector< int > & | getInputVariableIndexes (int flag=0) const |
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virtual const std::vector< int > & | getOutputVariableIndexes (int flag=0) const |
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