absorption_lookup_tablePrecomputeAll

Workspace.absorption_lookup_tablePrecomputeAll(self, absorption_lookup_table: pyarts.arts.AbsorptionLookupTables | None = None, ray_path_atmospheric_point: pyarts.arts.ArrayOfAtmPoint | None = None, frequency_grid: pyarts.arts.AscendingGrid | None = None, absorption_bands: pyarts.arts.AbsorptionBands | None = None, ecs_data: pyarts.arts.LinemixingEcsData | None = None, temperature_perturbation: pyarts.arts.AscendingGrid | None = None, water_perturbation: pyarts.arts.AscendingGrid | None = None, water_affected_species: pyarts.arts.ArrayOfSpeciesEnum | None = None) None

Compute the lookup table for all species in absorption_bands.

Wraps absorption_lookup_tablePrecompute() for each species, passing water_perturbation along for those species that are water_affected_species.

Author(s): Richard Larsson

Parameters:
  • absorption_lookup_table (AbsorptionLookupTables, optional) – Absorption lookup table for scalar gas absorption coefficients. See absorption_lookup_table, defaults to self.absorption_lookup_table [INOUT]

  • ray_path_atmospheric_point (ArrayOfAtmPoint, optional) – Atmospheric points along the propagation path. See ray_path_atmospheric_point, defaults to self.ray_path_atmospheric_point [IN]

  • frequency_grid (AscendingGrid, optional) – A single path point’s frequency grid. See frequency_grid, defaults to self.frequency_grid [IN]

  • absorption_bands (AbsorptionBands, optional) – Bands of absorption lines for LBL calculations. See absorption_bands, defaults to self.absorption_bands [IN]

  • ecs_data (LinemixingEcsData, optional) – Error corrected sudden data. See ecs_data, defaults to self.ecs_data [IN]

  • temperature_perturbation (AscendingGrid, optional) – , optionalTemperature perturbation to use for the lookup table. [IN]

  • water_perturbation (AscendingGrid, optional) – , optionalWater vapor perturbation to use for the lookup table. [IN]

  • water_affected_species (ArrayOfSpeciesEnum, optional) – , optionalA list of absorption species that are affected by water vapor perturbations nonlinearly. [IN]