ASPECT
aspect::MaterialModel::LatentHeatMelt< dim > Member List

This is the complete list of members for aspect::MaterialModel::LatentHeatMelt< dim >, including all inherited members.

A1aspect::MaterialModel::LatentHeatMelt< dim >private
A2aspect::MaterialModel::LatentHeatMelt< dim >private
A3aspect::MaterialModel::LatentHeatMelt< dim >private
B1aspect::MaterialModel::LatentHeatMelt< dim >private
B2aspect::MaterialModel::LatentHeatMelt< dim >private
B3aspect::MaterialModel::LatentHeatMelt< dim >private
betaaspect::MaterialModel::LatentHeatMelt< dim >private
C1aspect::MaterialModel::LatentHeatMelt< dim >private
C2aspect::MaterialModel::LatentHeatMelt< dim >private
C3aspect::MaterialModel::LatentHeatMelt< dim >private
composition_viscosity_prefactoraspect::MaterialModel::LatentHeatMelt< dim >private
compositional_delta_rhoaspect::MaterialModel::LatentHeatMelt< dim >private
compute_net_angular_momentum(const bool use_constant_density, const LinearAlgebra::BlockVector &solution, const bool limit_to_top_faces=false) constaspect::SimulatorAccess< dim >
convert_output_to_years() constaspect::SimulatorAccess< dim >
create_additional_named_outputs(MaterialModelOutputs &outputs) constaspect::MaterialModel::Interface< dim >virtual
D1aspect::MaterialModel::LatentHeatMelt< dim >private
D2aspect::MaterialModel::LatentHeatMelt< dim >private
D3aspect::MaterialModel::LatentHeatMelt< dim >private
declare_parameters(ParameterHandler &prm)aspect::MaterialModel::LatentHeatMelt< dim >static
E1aspect::MaterialModel::LatentHeatMelt< dim >private
E2aspect::MaterialModel::LatentHeatMelt< dim >private
entropy_derivative(const double temperature, const double pressure, const std::vector< double > &compositional_fields, const Point< dim > &position, const NonlinearDependence::Dependence dependence) constaspect::MaterialModel::LatentHeatMelt< dim >private
etaaspect::MaterialModel::LatentHeatMelt< dim >private
evaluate(const MaterialModel::MaterialModelInputs< dim > &in, MaterialModel::MaterialModelOutputs< dim > &out) const overrideaspect::MaterialModel::LatentHeatMelt< dim >virtual
F_px_maxaspect::MaterialModel::LatentHeatMelt< dim >private
fill_additional_material_model_inputs(MaterialModel::MaterialModelInputs< dim > &input, const LinearAlgebra::BlockVector &solution, const FEValuesBase< dim > &fe_values, const Introspection< dim > &introspection) constaspect::MaterialModel::Interface< dim >virtual
find_postprocessor() constaspect::SimulatorAccess< dim >
find_postprocessor() constaspect::SimulatorAccess< dim >inline
get_adiabatic_conditions() constaspect::SimulatorAccess< dim >
get_adiabatic_surface_temperature() constaspect::SimulatorAccess< dim >
get_artificial_viscosity(Vector< float > &viscosity_per_cell, const bool skip_interior_cells=false) constaspect::SimulatorAccess< dim >
get_artificial_viscosity_composition(Vector< float > &viscosity_per_cell, const unsigned int compositional_variable) constaspect::SimulatorAccess< dim >
get_boundary_composition() constaspect::SimulatorAccess< dim >
get_boundary_composition_manager() constaspect::SimulatorAccess< dim >
get_boundary_heat_flux() constaspect::SimulatorAccess< dim >
get_boundary_temperature() constaspect::SimulatorAccess< dim >
get_boundary_temperature_manager() constaspect::SimulatorAccess< dim >
get_boundary_traction() constaspect::SimulatorAccess< dim >
get_boundary_velocity_manager() constaspect::SimulatorAccess< dim >
get_composition_values_at_q_point(const std::vector< std::vector< double >> &composition_values, const unsigned int q, std::vector< double > &composition_values_at_q_point)aspect::SimulatorAccess< dim >static
get_computing_timer() constaspect::SimulatorAccess< dim >
get_current_constraints() constaspect::SimulatorAccess< dim >
get_current_linearization_point() constaspect::SimulatorAccess< dim >
get_dof_handler() constaspect::SimulatorAccess< dim >
get_fe() constaspect::SimulatorAccess< dim >
get_fixed_composition_boundary_indicators() constaspect::SimulatorAccess< dim >
get_fixed_heat_flux_boundary_indicators() constaspect::SimulatorAccess< dim >
get_fixed_temperature_boundary_indicators() constaspect::SimulatorAccess< dim >
get_geometry_model() constaspect::SimulatorAccess< dim >
get_gravity_model() constaspect::SimulatorAccess< dim >
get_heating_model_manager() constaspect::SimulatorAccess< dim >
get_initial_composition() constaspect::SimulatorAccess< dim >
get_initial_composition_manager() constaspect::SimulatorAccess< dim >
get_initial_composition_manager_pointer() constaspect::SimulatorAccess< dim >
get_initial_temperature() constaspect::SimulatorAccess< dim >
get_initial_temperature_manager() constaspect::SimulatorAccess< dim >
get_initial_temperature_manager_pointer() constaspect::SimulatorAccess< dim >
get_initial_topography_model() constaspect::SimulatorAccess< dim >
get_lateral_averaging() constaspect::SimulatorAccess< dim >
get_mapping() constaspect::SimulatorAccess< dim >
get_material_model() constaspect::SimulatorAccess< dim >
get_melt_handler() constaspect::SimulatorAccess< dim >
get_mesh_deformation_boundary_indicators() constaspect::SimulatorAccess< dim >
get_mesh_deformation_handler() constaspect::SimulatorAccess< dim >
get_mesh_refinement_manager() constaspect::SimulatorAccess< dim >
get_mesh_velocity() constaspect::SimulatorAccess< dim >
get_model_dependence() constaspect::MaterialModel::Interface< dim >
get_mpi_communicator() constaspect::SimulatorAccess< dim >
get_newton_handler() constaspect::SimulatorAccess< dim >
get_nonlinear_iteration() constaspect::SimulatorAccess< dim >
get_old_old_solution() constaspect::SimulatorAccess< dim >
get_old_solution() constaspect::SimulatorAccess< dim >
get_old_timestep() constaspect::SimulatorAccess< dim >
get_output_directory() constaspect::SimulatorAccess< dim >
get_parameters() constaspect::SimulatorAccess< dim >
get_particle_world() constaspect::SimulatorAccess< dim >
get_particle_world()aspect::SimulatorAccess< dim >
get_pcout() constaspect::SimulatorAccess< dim >
get_postprocess_manager() constaspect::SimulatorAccess< dim >
get_pre_refinement_step() constaspect::SimulatorAccess< dim >
get_pressure_scaling() constaspect::SimulatorAccess< dim >
get_reaction_vector() constaspect::SimulatorAccess< dim >
get_refinement_criteria(Vector< float > &estimated_error_per_cell) constaspect::SimulatorAccess< dim >
get_signals() constaspect::SimulatorAccess< dim >
get_simulator() constaspect::SimulatorAccess< dim >
get_solution() constaspect::SimulatorAccess< dim >
get_statistics_object() constaspect::SimulatorAccess< dim >
get_stokes_matrix_free() constaspect::SimulatorAccess< dim >
get_stokes_velocity_degree() constaspect::SimulatorAccess< dim >
get_surface_pressure() constaspect::SimulatorAccess< dim >
get_system_matrix() constaspect::SimulatorAccess< dim >
get_system_preconditioner_matrix() constaspect::SimulatorAccess< dim >
get_time() constaspect::SimulatorAccess< dim >
get_timestep() constaspect::SimulatorAccess< dim >
get_timestep_number() constaspect::SimulatorAccess< dim >
get_triangulation() constaspect::SimulatorAccess< dim >
get_volume() constaspect::SimulatorAccess< dim >
get_volume_of_fluid_handler() constaspect::SimulatorAccess< dim >
has_boundary_composition() constaspect::SimulatorAccess< dim >
has_boundary_temperature() constaspect::SimulatorAccess< dim >
include_adiabatic_heating() constaspect::SimulatorAccess< dim >
include_latent_heat() constaspect::SimulatorAccess< dim >
include_melt_transport() constaspect::SimulatorAccess< dim >
initialize()aspect::MaterialModel::Interface< dim >virtual
initialize_simulator(const Simulator< dim > &simulator_object)aspect::SimulatorAccess< dim >virtual
introspection() constaspect::SimulatorAccess< dim >
is_compressible() const overrideaspect::MaterialModel::LatentHeatMelt< dim >virtual
is_stokes_matrix_free()aspect::SimulatorAccess< dim >
k_valueaspect::MaterialModel::LatentHeatMelt< dim >private
M_cpxaspect::MaterialModel::LatentHeatMelt< dim >private
MaterialModelInputs typedefaspect::MaterialModel::Interface< dim >
MaterialModelOutputs typedefaspect::MaterialModel::Interface< dim >
melt_fraction(const double temperature, const double pressure, const std::vector< double > &compositional_fields, const Point< dim > &position) constaspect::MaterialModel::LatentHeatMelt< dim >privatevirtual
melt_fractions(const MaterialModel::MaterialModelInputs< dim > &in, std::vector< double > &melt_fractions) const overrideaspect::MaterialModel::LatentHeatMelt< dim >virtual
melt_thermal_alphaaspect::MaterialModel::LatentHeatMelt< dim >private
model_dependenceaspect::MaterialModel::Interface< dim >protected
model_has_prescribed_stokes_solution() constaspect::SimulatorAccess< dim >
n_compositional_fields() constaspect::SimulatorAccess< dim >
parse_parameters(ParameterHandler &prm) overrideaspect::MaterialModel::LatentHeatMelt< dim >virtual
peridotite_melt_fraction(const double temperature, const double pressure, const std::vector< double > &compositional_fields, const Point< dim > &position) constaspect::MaterialModel::LatentHeatMelt< dim >privatevirtual
peridotite_melting_entropy_changeaspect::MaterialModel::LatentHeatMelt< dim >private
pressure_rhs_needs_compatibility_modification() constaspect::SimulatorAccess< dim >
pyroxenite_melt_fraction(const double temperature, const double pressure, const std::vector< double > &compositional_fields, const Point< dim > &position) constaspect::MaterialModel::LatentHeatMelt< dim >privatevirtual
pyroxenite_melting_entropy_changeaspect::MaterialModel::LatentHeatMelt< dim >private
r1aspect::MaterialModel::LatentHeatMelt< dim >private
r2aspect::MaterialModel::LatentHeatMelt< dim >private
reference_compressibilityaspect::MaterialModel::LatentHeatMelt< dim >private
reference_rhoaspect::MaterialModel::LatentHeatMelt< dim >private
reference_specific_heataspect::MaterialModel::LatentHeatMelt< dim >private
reference_Taspect::MaterialModel::LatentHeatMelt< dim >private
relative_melt_densityaspect::MaterialModel::LatentHeatMelt< dim >private
simulator_is_past_initialization() constaspect::SimulatorAccess< dim >
SimulatorAccess()aspect::SimulatorAccess< dim >
SimulatorAccess(const Simulator< dim > &simulator_object)aspect::SimulatorAccess< dim >
thermal_alphaaspect::MaterialModel::LatentHeatMelt< dim >private
thermal_viscosity_exponentaspect::MaterialModel::LatentHeatMelt< dim >private
update()aspect::MaterialModel::Interface< dim >virtual
~Interface()=defaultaspect::MaterialModel::Interface< dim >virtual
~MeltFractionModel()=defaultaspect::MaterialModel::MeltFractionModel< dim >virtual
~SimulatorAccess()=defaultaspect::SimulatorAccess< dim >virtual