cloudbox_fieldUpdate1D

Workspace.cloudbox_fieldUpdate1D(self: pyarts.arts._Workspace, cloudbox_field_mono: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor6 | None = self.cloudbox_field_mono, doit_scat_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor6 | None = self.doit_scat_field, cloudbox_limits: pyarts.arts.WorkspaceVariable | pyarts.arts.ArrayOfIndex | None = self.cloudbox_limits, propmat_clearsky_agenda: pyarts.arts.WorkspaceVariable | pyarts.arts.Agenda | None = self.propmat_clearsky_agenda, vmr_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor4 | None = self.vmr_field, spt_calc_agenda: pyarts.arts.WorkspaceVariable | pyarts.arts.Agenda | None = self.spt_calc_agenda, za_grid: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.za_grid, pnd_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor4 | None = self.pnd_field, ppath_step_agenda: pyarts.arts.WorkspaceVariable | pyarts.arts.Agenda | None = self.ppath_step_agenda, ppath_lmax: pyarts.arts.WorkspaceVariable | pyarts.arts.Numeric | None = self.ppath_lmax, ppath_lraytrace: pyarts.arts.WorkspaceVariable | pyarts.arts.Numeric | None = self.ppath_lraytrace, p_grid: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.p_grid, z_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor3 | None = self.z_field, refellipsoid: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.refellipsoid, t_field: pyarts.arts.WorkspaceVariable | pyarts.arts.Tensor3 | None = self.t_field, f_grid: pyarts.arts.WorkspaceVariable | pyarts.arts.Vector | None = self.f_grid, f_index: pyarts.arts.WorkspaceVariable | pyarts.arts.Index | None = self.f_index, surface_rtprop_agenda: pyarts.arts.WorkspaceVariable | pyarts.arts.Agenda | None = self.surface_rtprop_agenda, doit_za_interp: pyarts.arts.WorkspaceVariable | pyarts.arts.Index | None = self.doit_za_interp, verbosity: pyarts.arts.WorkspaceVariable | pyarts.arts.Verbosity | None = self.verbosity) → None

RT calculation in cloudbox with fixed scattering integral (1D).

Updates the radiation field (DOIT method). The method loops through the cloudbox to update the radiation field for all positions and directions in the 1D cloudbox.

Note: This method is very inefficient, because the number of iterations scales with the number of cloudbox pressure levels. It is recommended to use cloudbox_fieldUpdateSeq1D().

Author(s): Claudia Emde

Parameters:

• cloudbox_field_mono (Tensor6, optional) – Monochromatic radiation field inside the cloudbox. See cloudbox_field_mono, defaults to self.cloudbox_field_mono [INOUT]

• doit_scat_field (Tensor6, optional) – Scattered field inside the cloudbox. See doit_scat_field, defaults to self.doit_scat_field [IN]

• cloudbox_limits (ArrayOfIndex, optional) – The limits of the cloud box. See cloudbox_limits, defaults to self.cloudbox_limits [IN]

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

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

• spt_calc_agenda (Agenda, optional) – Calculates single scattering properties for individual scattering. See spt_calc_agenda, defaults to self.spt_calc_agenda [IN]

• za_grid (Vector, optional) – Zenith angle grid. See za_grid, defaults to self.za_grid [IN]

• pnd_field (Tensor4, optional) – Particle number density field. See pnd_field, defaults to self.pnd_field [IN]

• ppath_step_agenda (Agenda, optional) – Calculation of a propagation path step. See ppath_step_agenda, defaults to self.ppath_step_agenda [IN]

• ppath_lmax (Numeric, optional) – Maximum length between points describing propagation paths. See ppath_lmax, defaults to self.ppath_lmax [IN]

• ppath_lraytrace (Numeric, optional) – Maximum length of ray tracing steps when determining propagation. See ppath_lraytrace, defaults to self.ppath_lraytrace [IN]

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

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

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

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

• f_grid (Vector, optional) – The frequency grid for monochromatic pencil beam calculations. See f_grid, defaults to self.f_grid [IN]

• f_index (Index, optional) – Frequency index. See f_index, defaults to self.f_index [IN]

• surface_rtprop_agenda (Agenda, optional) – Provides radiative properties of the surface. . See surface_rtprop_agenda, defaults to self.surface_rtprop_agenda [IN]

• doit_za_interp (Index, optional) – Flag for interplation method in zenith angle dimension. See doit_za_interp, defaults to self.doit_za_interp [IN]

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