tardis.montecarlo.estimators.continuum_radfield_properties module¶

class tardis.montecarlo.estimators.continuum_radfield_properties.ContinuumProperties(stimulated_recomb_rate_factor: pandas.core.frame.DataFrame, photo_ionization_rate_coefficient: pandas.core.frame.DataFrame)[source]¶

Bases: object

photo_ionization_rate_coefficient: DataFrame¶

stimulated_recomb_rate_factor: DataFrame¶

class tardis.montecarlo.estimators.continuum_radfield_properties.DiluteBlackBodyContinuumPropertiesSolver(atom_data: AtomData)[source]¶

Bases: object

calculate_mean_intensity_photo_ion_table(dilute_blackbody_radiationfield_state: DiluteBlackBodyRadiationFieldState)[source]¶

calculate_photo_ionization_rate_coefficient(mean_intensity_photo_ion_df: DataFrame)[source]¶

Calculate the photoionization rate coefficient.

Parameters

mean_intensity_photo_ion_dfpd.DataFrame: The mean intensity of the radiation field at the frequencies of the photoionization table.

Returns

pd.DataFrame: The calculated photoionization rate coefficient.

Notes

Equation 16 in Lucy 2003.

calculate_stimulated_recomb_rate_factor(mean_intensity_photo_ion_df: DataFrame, photo_ion_boltzmann_factor: ndarray)[source]¶

Calculate the stimulated recombination rate factor (the phi_ik are multiplied in the plasma).

Parameters

mean_intensity_photo_ion_dfpd.DataFrame: The mean intensity of the radiation field at the frequencies of the photoionization table.
photo_ion_boltzmann_factor: np.ndarray: The Boltzmann factor for the photoionization table.

Returns

pd.DataFrame: The calculated stimulated recombination rate factor.

Notes

Equation 15 in Lucy 2003.

solve(dilute_blackbody_radiationfield_state: DiluteBlackBodyRadiationFieldState, t_electrons: Quantity)[source]¶

Solve for the continuum properties.

Parameters

dilute_blackbody_radiationfield_stateDiluteBlackBodyRadiationFieldState: The state of the dilute blackbody radiation field.
t_electronsu.Quantity: The temperature of the electrons.

Returns

ContinuumProperties: The calculated continuum properties.

class tardis.montecarlo.estimators.continuum_radfield_properties.MCContinuumPropertiesSolver(atom_data: AtomData)[source]¶

Bases: object

solve(radfield_mc_estimators: RadiationFieldMCEstimators, time_simulation, volume)[source]¶

Solve for the continuum properties.

Parameters

radfield_mc_estimatorsRadiationFieldMCEstimators: The Monte Carlo estimators for the radiation field.
time_simulationfloat: The simulation time.
volumefloat: The volume of the cells.

Returns

ContinuumProperties: The calculated continuum properties.