surfaceTessem

Workspace.surfaceTessem(self: pyarts.arts._Workspace, surface_los: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Matrix]] = self.surface_los, surface_rmatrix: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Tensor4]] = self.surface_rmatrix, surface_emission: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Matrix]] = self.surface_emission, atmosphere_dim: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index]] = self.atmosphere_dim, stokes_dim: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Index]] = self.stokes_dim, f_grid: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Vector]] = self.f_grid, rtp_pos: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Vector]] = self.rtp_pos, rtp_los: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Vector]] = self.rtp_los, surface_skin_t: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Numeric]] = self.surface_skin_t, tessem_neth: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.TessemNN]] = self.tessem_neth, tessem_netv: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.TessemNN]] = self.tessem_netv, salinity: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Numeric]] = 0.035, wind_speed: Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Numeric], verbosity: Optional[Union[pyarts.arts.WorkspaceVariable, pyarts.arts.Verbosity]] = self.verbosity) → None

TESSEM sea surface microwave emissivity parametrization.

This method computes surface emissivity and reflectivity matrices for ocean surfaces using the TESSEM emissivity model: Prigent, C., et al. Sea‐surface emissivity parametrization from microwaves to millimetre waves, QJRMS, 2017, 143.702: 596-605.

The validity range of the parametrization of is 10 to 700 GHz, but for some extra flexibility frequencies between 5 and 900 GHz are accepted. The accepted temperaute range for surface_skin_t is [260.0 K, 373.0 K]

The model itself is represented by the neural networks in tessem_neth and tessem_netv.

Author(s): Simon Pfreundschuh

Parameters:

• surface_los (Matrix, optional) – Downwelling radiation directions to consider in surface reflection. See surface_los, defaults to self.surface_los [OUT]

• surface_rmatrix (Tensor4, optional) – The reflection coefficients for the directions given by. See surface_rmatrix, defaults to self.surface_rmatrix [OUT]

• surface_emission (Matrix, optional) – The emission from the surface. See surface_emission, defaults to self.surface_emission [OUT]

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

• stokes_dim (Index, optional) – The dimensionality of the Stokes vector (1-4). See stokes_dim, defaults to self.stokes_dim [IN]

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

• rtp_pos (Vector, optional) – Position of a radiative transfer point. See rtp_pos, defaults to self.rtp_pos [IN]

• rtp_los (Vector, optional) – Line-of-sight at a radiative transfer point. See rtp_los, defaults to self.rtp_los [IN]

• surface_skin_t (Numeric, optional) – Surface skin temperature. See surface_skin_t, defaults to self.surface_skin_t [IN]

• tessem_neth (TessemNN, optional) – TESSEM2 neural network parameters for horizontal polarization. See tessem_neth, defaults to self.tessem_neth [IN]

• tessem_netv (TessemNN, optional) – TESSEM2 neural network parameters for vertical polarization. See tessem_netv, defaults to self.tessem_netv [IN]

• salinity (Numeric, optional) – Salinity, 0-1. That is, 3% is given as 0.03. Defaults to 0.035 [IN]

• wind_speed (Numeric) – Wind speed. [IN]

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