nlte_fieldForSingleSpeciesNonOverlappingLines

Workspace.nlte_fieldForSingleSpeciesNonOverlappingLines(self: pyarts.arts._Workspace, nlte_field: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.EnergyLevelMap]] = self.nlte_field, abs_species: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.ArrayOfArrayOfSpeciesTag]] = self.abs_species, abs_lines_per_species: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.ArrayOfArrayOfAbsorptionLines]] = self.abs_lines_per_species, collision_coefficients: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.ArrayOfArrayOfGriddedField1]] = self.collision_coefficients, collision_line_identifiers: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.ArrayOfQuantumIdentifier]] = self.collision_line_identifiers, isotopologue_ratios: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.SpeciesIsotopologueRatios]] = self.isotopologue_ratios, iy_main_agenda: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Agenda]] = self.iy_main_agenda, ppath_agenda: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Agenda]] = self.ppath_agenda, iy_space_agenda: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Agenda]] = self.iy_space_agenda, iy_surface_agenda: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Agenda]] = self.iy_surface_agenda, iy_cloudbox_agenda: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Agenda]] = self.iy_cloudbox_agenda, propmat_clearsky_agenda: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Agenda]] = self.propmat_clearsky_agenda, water_p_eq_agenda: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Agenda]] = self.water_p_eq_agenda, vmr_field: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Tensor4]] = self.vmr_field, t_field: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Tensor3]] = self.t_field, z_field: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Tensor3]] = self.z_field, p_grid: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Vector]] = self.p_grid, atmosphere_dim: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index]] = self.atmosphere_dim, refellipsoid: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Vector]] = self.refellipsoid, surface_props_data: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Tensor3]] = self.surface_props_data, nlte_do: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index]] = self.nlte_do, df: Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Numeric], convergence_limit: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Numeric]] = 1e-6, nz: Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index], nf: Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index], dampened: Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index], iteration_limit: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index]] = 20, verbosity: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Verbosity]] = self.verbosity) None

NLTE field for a simple setup.

This will solve for nlte_field in the input atmosphere. The solver depends on the lines not overlapping and that there is only a single species in the atmosphere.

Author(s): Richard Larsson

Parameters:

  • nlte_field (EnergyLevelMap, optional) – The field of NLTE temperatures and/or ratios. See nlte_field, defaults to self.nlte_field [INOUT]

  • abs_species (ArrayOfArrayOfSpeciesTag, optional) – Tag groups for gas absorption. See abs_species, defaults to self.abs_species [IN]

  • abs_lines_per_species (ArrayOfArrayOfAbsorptionLines, optional) – A list of spectral line data for each tag. See abs_lines_per_species, defaults to self.abs_lines_per_species [IN]

  • collision_coefficients (ArrayOfArrayOfGriddedField1, optional) – An array of coefficients for effective collisions. See collision_coefficients, defaults to self.collision_coefficients [IN]

  • collision_line_identifiers (ArrayOfQuantumIdentifier, optional) – An array of quantum identifiers for finding collisional rates. See collision_line_identifiers, defaults to self.collision_line_identifiers [IN]

  • isotopologue_ratios (SpeciesIsotopologueRatios, optional) – Contains the isotopologue ratios. See isotopologue_ratios, defaults to self.isotopologue_ratios [IN]

  • iy_main_agenda (Agenda, optional) – Calculation of a single monochromatic pencil beam spectrum. See iy_main_agenda, defaults to self.iy_main_agenda [IN]

  • ppath_agenda (Agenda, optional) – Calculation of complete propagation paths. See ppath_agenda, defaults to self.ppath_agenda [IN]

  • iy_space_agenda (Agenda, optional) – Downwelling radiation at the top of the atmosphere. See iy_space_agenda, defaults to self.iy_space_agenda [IN]

  • iy_surface_agenda (Agenda, optional) – Upwelling radiation from the surface. See iy_surface_agenda, defaults to self.iy_surface_agenda [IN]

  • iy_cloudbox_agenda (Agenda, optional) – Intensity at boundary or interior of the cloudbox. See iy_cloudbox_agenda, defaults to self.iy_cloudbox_agenda [IN]

  • propmat_clearsky_agenda (Agenda, optional) – Calculate the absorption coefficient matrix. See propmat_clearsky_agenda, defaults to self.propmat_clearsky_agenda [IN]

  • water_p_eq_agenda (Agenda, optional) – Calculation of the saturation pressure of water. See water_p_eq_agenda, defaults to self.water_p_eq_agenda [IN]

  • vmr_field (Tensor4, optional) – VMR field. See vmr_field, defaults to self.vmr_field [IN]

  • t_field (Tensor3, optional) – The field of atmospheric temperatures. See t_field, defaults to self.t_field [IN]

  • z_field (Tensor3, optional) – The field of geometrical altitudes. See z_field, defaults to self.z_field [IN]

  • p_grid (Vector, optional) – The pressure grid. See p_grid, defaults to self.p_grid [IN]

  • atmosphere_dim (Index, optional) – The atmospheric dimensionality (1-3). See atmosphere_dim, defaults to self.atmosphere_dim [IN]

  • refellipsoid (Vector, optional) – Reference ellipsoid. See refellipsoid, defaults to self.refellipsoid [IN]

  • surface_props_data (Tensor3, optional) – Various surface properties. See surface_props_data, defaults to self.surface_props_data [IN]

  • nlte_do (Index, optional) – Flag to perform Non-LTE calculations. See nlte_do, defaults to self.nlte_do [IN]

  • df (Numeric) – relative frequency to line center. [IN]

  • convergence_limit (Numeric, optional) – max relative change in ratio of level to stop iterations. Defaults to 1e-6 [IN]

  • nz (Index) – number of zenith angles. [IN]

  • nf (Index) – number of frequency grid-points per line. [IN]

  • dampened (Index) – use transmission dampening or not. [IN]

  • iteration_limit (Index, optional) – max number of iterations before defaul break of iterations. Defaults to 20 [IN]

  • verbosity (Verbosity) – ARTS verbosity. See verbosity, defaults to self.verbosity [IN]