AtmFieldsCalcExpand1D

Workspace.AtmFieldsCalcExpand1D(self: pyarts.arts._Workspace, t_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor3 | None = self.t_field, z_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor3 | None = self.z_field, vmr_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor4 | None = self.vmr_field, nlte_field: pyarts.arts.WorkspaceVariable | pyarts.arts.EnergyLevelMap | None = self.nlte_field, p_grid: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.p_grid, lat_grid: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.lat_grid, lon_grid: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.lon_grid, t_field_raw: pyarts.arts.WorkspaceVariable | pyarts.arts.GriddedField3 | None = self.t_field_raw, z_field_raw: pyarts.arts.WorkspaceVariable | pyarts.arts.GriddedField3 | None = self.z_field_raw, vmr_field_raw: pyarts.arts.WorkspaceVariable | pyarts.arts.ArrayOfGriddedField3 | None = self.vmr_field_raw, nlte_field_raw: pyarts.arts.WorkspaceVariable | pyarts.arts.ArrayOfGriddedField3 | None = self.nlte_field_raw, nlte_level_identifiers: pyarts.arts.WorkspaceVariable | pyarts.arts.ArrayOfQuantumIdentifier | None = self.nlte_level_identifiers, nlte_vibrational_energies: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.nlte_vibrational_energies, atmosphere_dim: pyarts.arts.WorkspaceVariable | pyarts.arts.Index | None = self.atmosphere_dim, interp_order: pyarts.arts.WorkspaceVariable | pyarts.arts.Index | None = 1, vmr_zeropadding: pyarts.arts.WorkspaceVariable | pyarts.arts.Index | None = 0, vmr_nonegative: pyarts.arts.WorkspaceVariable | pyarts.arts.Index | None = 0, nlte_when_negative: pyarts.arts.WorkspaceVariable | pyarts.arts.Index | None = 0, verbosity: pyarts.arts.WorkspaceVariable | pyarts.arts.Verbosity | None = self.verbosity) → None

Interpolation of 1D raw atmospheric fields to create 2D or 3D homogeneous atmospheric fields.

The method works as AtmFieldsCalc(), but accepts only raw 1D atmospheres. The raw atmosphere is interpolated to p_grid and the obtained values are applied for all latitudes, and also longitudes for 3D, to create a homogeneous atmosphere.

The method deals only with the atmospheric fields, and to create a true 2D or 3D version of a 1D case, a demand is also that the ellipsoid is set to be a sphere.

Author(s): Patrick Eriksson, Claudia Emde, Stefan Buehler

Parameters:

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

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

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

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

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

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

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

• t_field_raw (GriddedField3, optional) – Raw data for atmospheric temperatures. See t_field_raw, defaults to self.t_field_raw [IN]

• z_field_raw (GriddedField3, optional) – Raw data for geometrical altitudes. See z_field_raw, defaults to self.z_field_raw [IN]

• vmr_field_raw (ArrayOfGriddedField3, optional) – VMR data for the chosen gaseous species. See vmr_field_raw, defaults to self.vmr_field_raw [IN]

• nlte_field_raw (ArrayOfGriddedField3, optional) – Raw data for NLTE temperatures and/or ratios. See nlte_field_raw, defaults to self.nlte_field_raw [IN]

• nlte_level_identifiers (ArrayOfQuantumIdentifier, optional) – An array of non-lte quantum identifiers for levels matching. See nlte_level_identifiers, defaults to self.nlte_level_identifiers [IN]

• nlte_vibrational_energies (Vector, optional) – An list of vibrational energies matching. See nlte_vibrational_energies, defaults to self.nlte_vibrational_energies [IN]

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

• interp_order (Index, optional) – Interpolation order (1=linear interpolation). Defaults to 1 [IN]

• vmr_zeropadding (Index, optional) – Pad VMRs with zeroes to fit the pressure grid if necessary. Defaults to 0 [IN]

• vmr_nonegative (Index, optional) – If set to 1, negative VMRs are set to 0. Defaults to 0 [IN]

• nlte_when_negative (Index, optional) – -1: Skip step. 0: Negative is 0. Else: Negative is t. Defaults to 0 [IN]

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