ASPECT
Public Member Functions | Static Public Member Functions | Private Member Functions | Private Attributes | List of all members
aspect::InitialTemperature::Adiabatic< dim > Class Template Reference
Describing initial conditions » Describing initial conditions for the temperature
Inheritance diagram for aspect::InitialTemperature::Adiabatic< dim >:
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Public Member Functions

 Adiabatic ()
 
void initialize () override
 
double initial_temperature (const Point< dim > &position) const override
 
void parse_parameters (ParameterHandler &prm) override
 
- Public Member Functions inherited from aspect::InitialTemperature::Interface< dim >
virtual ~Interface ()=default
 
- Public Member Functions inherited from aspect::Utilities::AsciiDataBoundary< dim >
 AsciiDataBoundary ()
 
virtual void initialize (const std::set< types::boundary_id > &boundary_ids, const unsigned int components)
 
void update ()
 
double get_data_component (const types::boundary_id boundary_indicator, const Point< dim > &position, const unsigned int component) const
 
double get_maximum_component_value (const types::boundary_id boundary_indicator, const unsigned int component) const
 
Tensor< 1, dim-1 > vector_gradient (const types::boundary_id boundary_indicator, const Point< dim > &p, const unsigned int component) const
 
void parse_parameters (ParameterHandler &prm, const std::string &subsection_name="Ascii data model", const bool parse_time_dependent_parameters=true)
 
- Public Member Functions inherited from aspect::Utilities::AsciiDataBase< dim >
 AsciiDataBase ()
 
void parse_parameters (ParameterHandler &prm, const std::string &subsection_name="Ascii data model")
 
- Public Member Functions inherited from aspect::SimulatorAccess< dim >
 SimulatorAccess ()
 
 SimulatorAccess (const Simulator< dim > &simulator_object)
 
virtual ~SimulatorAccess ()=default
 
virtual void initialize_simulator (const Simulator< dim > &simulator_object)
 
const Introspection< dim > & introspection () const
 
const Simulator< dim > & get_simulator () const
 
const Parameters< dim > & get_parameters () const
 
SimulatorSignals< dim > & get_signals () const
 
MPI_Comm get_mpi_communicator () const
 
TimerOutput & get_computing_timer () const
 
const ConditionalOStream & get_pcout () const
 
double get_time () const
 
double get_timestep () const
 
double get_old_timestep () const
 
unsigned int get_timestep_number () const
 
const TimeStepping::Manager< dim > & get_timestepping_manager () const
 
unsigned int get_nonlinear_iteration () const
 
const parallel::distributed::Triangulation< dim > & get_triangulation () const
 
double get_volume () const
 
const Mapping< dim > & get_mapping () const
 
std::string get_output_directory () const
 
bool include_adiabatic_heating () const
 
bool include_latent_heat () const
 
bool include_melt_transport () const
 
int get_stokes_velocity_degree () const
 
double get_adiabatic_surface_temperature () const
 
double get_surface_pressure () const
 
bool convert_output_to_years () const
 
unsigned int get_pre_refinement_step () const
 
unsigned int n_compositional_fields () const
 
double get_end_time () const
 
void get_refinement_criteria (Vector< float > &estimated_error_per_cell) const
 
void get_artificial_viscosity (Vector< float > &viscosity_per_cell, const bool skip_interior_cells=false) const
 
void get_artificial_viscosity_composition (Vector< float > &viscosity_per_cell, const unsigned int compositional_variable) const
 
const LinearAlgebra::BlockVectorget_current_linearization_point () const
 
const LinearAlgebra::BlockVectorget_solution () const
 
const LinearAlgebra::BlockVectorget_old_solution () const
 
const LinearAlgebra::BlockVectorget_old_old_solution () const
 
const LinearAlgebra::BlockVectorget_reaction_vector () const
 
const LinearAlgebra::BlockVectorget_mesh_velocity () const
 
const DoFHandler< dim > & get_dof_handler () const
 
const FiniteElement< dim > & get_fe () const
 
const LinearAlgebra::BlockSparseMatrixget_system_matrix () const
 
const LinearAlgebra::BlockSparseMatrixget_system_preconditioner_matrix () const
 
const MaterialModel::Interface< dim > & get_material_model () const
 
const GravityModel::Interface< dim > & get_gravity_model () const
 
const InitialTopographyModel::Interface< dim > & get_initial_topography_model () const
 
const GeometryModel::Interface< dim > & get_geometry_model () const
 
const AdiabaticConditions::Interface< dim > & get_adiabatic_conditions () const
 
bool has_boundary_temperature () const
 
const BoundaryTemperature::Manager< dim > & get_boundary_temperature_manager () const
 
const BoundaryHeatFlux::Interface< dim > & get_boundary_heat_flux () const
 
bool has_boundary_composition () const
 
const BoundaryComposition::Manager< dim > & get_boundary_composition_manager () const
 
const BoundaryTraction::Manager< dim > & get_boundary_traction_manager () const
 
std::shared_ptr< const InitialTemperature::Manager< dim > > get_initial_temperature_manager_pointer () const
 
const InitialTemperature::Manager< dim > & get_initial_temperature_manager () const
 
std::shared_ptr< const InitialComposition::Manager< dim > > get_initial_composition_manager_pointer () const
 
const InitialComposition::Manager< dim > & get_initial_composition_manager () const
 
const std::set< types::boundary_id > & get_fixed_temperature_boundary_indicators () const
 
const std::set< types::boundary_id > & get_fixed_heat_flux_boundary_indicators () const
 
const std::set< types::boundary_id > & get_fixed_composition_boundary_indicators () const
 
const std::set< types::boundary_id > & get_mesh_deformation_boundary_indicators () const
 
const BoundaryVelocity::Manager< dim > & get_boundary_velocity_manager () const
 
const HeatingModel::Manager< dim > & get_heating_model_manager () const
 
const MeshRefinement::Manager< dim > & get_mesh_refinement_manager () const
 
const MeltHandler< dim > & get_melt_handler () const
 
const VolumeOfFluidHandler< dim > & get_volume_of_fluid_handler () const
 
const NewtonHandler< dim > & get_newton_handler () const
 
const MeshDeformation::MeshDeformationHandler< dim > & get_mesh_deformation_handler () const
 
const LateralAveraging< dim > & get_lateral_averaging () const
 
const AffineConstraints< double > & get_current_constraints () const
 
bool simulator_is_past_initialization () const
 
double get_pressure_scaling () const
 
bool pressure_rhs_needs_compatibility_modification () const
 
bool model_has_prescribed_stokes_solution () const
 
TableHandler & get_statistics_object () const
 
const Postprocess::Manager< dim > & get_postprocess_manager () const
 
const Particle::World< dim > & get_particle_world () const
 
Particle::World< dim > & get_particle_world ()
 
bool is_stokes_matrix_free ()
 
const StokesMatrixFreeHandler< dim > & get_stokes_matrix_free () const
 
RotationProperties< dim > compute_net_angular_momentum (const bool use_constant_density, const LinearAlgebra::BlockVector &solution, const bool limit_to_top_faces=false) const
 

Static Public Member Functions

static void declare_parameters (ParameterHandler &prm)
 
- Static Public Member Functions inherited from aspect::InitialTemperature::Interface< dim >
static void declare_parameters (ParameterHandler &prm)
 
- Static Public Member Functions inherited from aspect::Utilities::AsciiDataBoundary< dim >
static void declare_parameters (ParameterHandler &prm, const std::string &default_directory, const std::string &default_filename, const std::string &subsection_name="Ascii data model", const bool declare_time_dependent_parameters=true)
 
- Static Public Member Functions inherited from aspect::Utilities::AsciiDataBase< dim >
static void declare_parameters (ParameterHandler &prm, const std::string &default_directory, const std::string &default_filename, const std::string &subsection_name="Ascii data model")
 
- Static Public Member Functions inherited from aspect::SimulatorAccess< dim >
static void 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)
 

Private Member Functions

double top_boundary_layer_age (const Point< dim > &position) const
 

Private Attributes

types::boundary_id surface_boundary_id
 
double age_top_boundary_layer
 
double age_bottom_boundary_layer
 
double radius
 
double amplitude
 
std::string perturbation_position
 
double subadiabaticity
 
BoundaryLayerAgeModel::Kind top_boundary_layer_age_model
 
std::string cooling_model
 
double lithosphere_thickness
 
std::unique_ptr< Functions::ParsedFunction< 1 > > function
 
Functions::ParsedFunction< dim > age_function
 
Utilities::Coordinates::CoordinateSystem coordinate_system
 

Additional Inherited Members

- Public Attributes inherited from aspect::Utilities::AsciiDataBase< dim >
std::string data_directory
 
std::string data_file_name
 
double scale_factor
 
- Protected Member Functions inherited from aspect::Utilities::AsciiDataBoundary< dim >
void update_data (const types::boundary_id boundary_id, const bool reload_both_files)
 
void end_time_dependence ()
 
std::string create_filename (const int filenumber, const types::boundary_id boundary_id) const
 
- Protected Attributes inherited from aspect::Utilities::AsciiDataBoundary< dim >
int current_file_number
 
int first_data_file_number
 
bool decreasing_file_order
 
double data_file_time_step
 
double time_weight
 
bool time_dependent
 
std::map< types::boundary_id, std::unique_ptr< aspect::Utilities::StructuredDataLookup< dim-1 > > > lookups
 
std::map< types::boundary_id, std::unique_ptr< aspect::Utilities::StructuredDataLookup< dim-1 > > > old_lookups
 

Detailed Description

template<int dim>
class aspect::InitialTemperature::Adiabatic< dim >

A class that implements adiabatic initial conditions for the temperature field and, optional, upper and lower thermal boundary layers calculated using the half-space cooling model. The age of the boundary layers are input parameters.

Definition at line 73 of file adiabatic.h.

Constructor & Destructor Documentation

§ Adiabatic()

template<int dim>
aspect::InitialTemperature::Adiabatic< dim >::Adiabatic ( )

Constructor.

Member Function Documentation

§ initialize()

template<int dim>
void aspect::InitialTemperature::Adiabatic< dim >::initialize ( )
overridevirtual

Initialization function. This function is called once at the beginning of the program after parse_parameters is run and after the SimulatorAccess (if applicable) is initialized.

Reimplemented from aspect::InitialTemperature::Interface< dim >.

§ initial_temperature()

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::initial_temperature ( const Point< dim > &  position) const
overridevirtual

Return the initial temperature as a function of position.

Implements aspect::InitialTemperature::Interface< dim >.

§ declare_parameters()

template<int dim>
static void aspect::InitialTemperature::Adiabatic< dim >::declare_parameters ( ParameterHandler &  prm)
static

Declare the parameters this class takes through input files.

§ parse_parameters()

template<int dim>
void aspect::InitialTemperature::Adiabatic< dim >::parse_parameters ( ParameterHandler &  prm)
overridevirtual

Read the parameters this class declares from the parameter file.

Reimplemented from aspect::InitialTemperature::Interface< dim >.

§ top_boundary_layer_age()

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::top_boundary_layer_age ( const Point< dim > &  position) const
private

Compute the top boundary layer age at the given position.

Member Data Documentation

§ surface_boundary_id

template<int dim>
types::boundary_id aspect::InitialTemperature::Adiabatic< dim >::surface_boundary_id
private

The boundary identifier representing the 'surface' boundary as reported by the geometry model.

Definition at line 109 of file adiabatic.h.

§ age_top_boundary_layer

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::age_top_boundary_layer
private

Age of the upper thermal boundary layer at the surface of the model. If set to zero, no boundary layer will be present in the model.

Definition at line 116 of file adiabatic.h.

§ age_bottom_boundary_layer

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::age_bottom_boundary_layer
private

Definition at line 119 of file adiabatic.h.

§ radius

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::radius
private

Radius (in m) of the initial temperature perturbation at the bottom of the model domain.

Definition at line 125 of file adiabatic.h.

§ amplitude

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::amplitude
private

Amplitude (in K) of the initial temperature perturbation at the bottom of the model domain.

Definition at line 130 of file adiabatic.h.

§ perturbation_position

template<int dim>
std::string aspect::InitialTemperature::Adiabatic< dim >::perturbation_position
private

Definition at line 135 of file adiabatic.h.

§ subadiabaticity

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::subadiabaticity
private

Definition at line 142 of file adiabatic.h.

§ top_boundary_layer_age_model

template<int dim>
BoundaryLayerAgeModel::Kind aspect::InitialTemperature::Adiabatic< dim >::top_boundary_layer_age_model
private

Age model to use for the top boundary layer.

Definition at line 147 of file adiabatic.h.

§ cooling_model

template<int dim>
std::string aspect::InitialTemperature::Adiabatic< dim >::cooling_model
private

Definition at line 153 of file adiabatic.h.

§ lithosphere_thickness

template<int dim>
double aspect::InitialTemperature::Adiabatic< dim >::lithosphere_thickness
private

Definition at line 158 of file adiabatic.h.

§ function

template<int dim>
std::unique_ptr<Functions::ParsedFunction<1> > aspect::InitialTemperature::Adiabatic< dim >::function
private

A function object representing the compositional fields that will be used as a reference profile for calculating the thermal diffusivity. The function depends only on depth.

Definition at line 165 of file adiabatic.h.

§ age_function

template<int dim>
Functions::ParsedFunction<dim> aspect::InitialTemperature::Adiabatic< dim >::age_function
private

A function object representing the age of the top boundary layer.

Definition at line 170 of file adiabatic.h.

§ coordinate_system

template<int dim>
Utilities::Coordinates::CoordinateSystem aspect::InitialTemperature::Adiabatic< dim >::coordinate_system
private

The coordinate representation to evaluate the function. Possible choices are depth, cartesian and spherical.

Definition at line 176 of file adiabatic.h.

The documentation for this class was generated from the following file: