tardis.plasma.properties.general module

class tardis.plasma.properties.general.BetaElectron(plasma_parent)[source]

Bases: ProcessingPlasmaProperty

Attributes:
beta_electronNumpy Array, dtype float
calculate(t_electrons)[source]
latex_formula = ('\\frac{1}{K_{B} T_{\\textrm{electron}}}',)
latex_name = ('\\beta_{\\textrm{electron}}',)
outputs = ('beta_electron',)
class tardis.plasma.properties.general.BetaRadiation(plasma_parent)[source]

Bases: ProcessingPlasmaProperty

Attributes:
beta_radNumpy Array, dtype float
calculate(t_rad)[source]
latex_formula = ('\\dfrac{1}{k_{B} T_{\\textrm{rad}}}',)
latex_name = ('\\beta_{\\textrm{rad}}',)
outputs = ('beta_rad',)
class tardis.plasma.properties.general.ElectronTemperature(plasma_parent)[source]

Bases: ProcessingPlasmaProperty

Attributes:
t_electronNumpy Array, dtype float
calculate(t_rad, link_t_rad_t_electron)[source]
latex_formula = ('\\textrm{const.}\\times T_{\\textrm{rad}}',)
latex_name = ('T_{\\textrm{electron}}',)
outputs = ('t_electrons',)
class tardis.plasma.properties.general.GElectron(plasma_parent)[source]

Bases: ProcessingPlasmaProperty

Attributes:
g_electronNumpy Array, dtype float
calculate(beta_rad)[source]
latex_formula = ('\\Big(\\dfrac{2\\pi m_{e}/\\beta_{\\textrm{rad}}}{h^2}\\Big)^{3/2}',)
latex_name = ('g_{\\textrm{electron}}',)
outputs = ('g_electron',)
class tardis.plasma.properties.general.SelectedAtoms(plasma_parent)[source]

Bases: ProcessingPlasmaProperty

Attributes:
selected_atomsPandas Int64Index, dtype int

Atomic numbers of elements required for particular simulation

calculate(number_density)[source]
outputs = ('selected_atoms',)
class tardis.plasma.properties.general.ThermalGElectron(plasma_parent)[source]

Bases: GElectron

Attributes:
thermal_g_electronNumpy Array, dtype float
calculate(beta_electron)[source]
latex_formula = ('\\Big(\\dfrac{2\\pi m_{e}/\\beta_{\\textrm{electron}}}{h^2}\\Big)^{3/2}',)
latex_name = ('g_{\\textrm{electron_thermal}}',)
outputs = ('thermal_g_electron',)