... | ... | @@ -116,7 +116,46 @@ The `atmosphere_parameters` section handles the atmospheric settings. |
|
|
- `use_pressure_grid`
|
|
|
- boolean
|
|
|
- if True, uses the pressure grid in the temperature profile file to generate the pressure grid
|
|
|
- e.g. `use_pressure_grid = False`. In that case, the pressure grid will be equally spaced in the log-space between `pressure_min` and `pressure_max`. If `True`, it will be directly read from `temperature_profile_file` (see [`retrieval_parameters`]()).
|
|
|
- e.g. `use_pressure_grid = False`. In that case, the pressure grid will be equally spaced in the log-space between `pressure_min` and `pressure_max`. If `True`, it will be directly read from `temperature_profile_file` (see [`retrieval_parameters`](#retrieval_parameters)).
|
|
|
- `h2_vmr`
|
|
|
- float
|
|
|
- H2 volume mixing ratio
|
|
|
- e.g. `h2_vmr = 0.6`. `h2_vmr`, `he_vmr` and `z_vmr` will be automatically adjusted so that their sum is 1.
|
|
|
- `he_vmr`
|
|
|
- float
|
|
|
- He volume mixing ratio
|
|
|
- e.g. `he_vmr = 0.1`. `h2_vmr`, `he_vmr` and `z_vmr` will be automatically adjusted so that their sum is 1.
|
|
|
- `z_vmr`
|
|
|
- float
|
|
|
- other species volume mixing ratio
|
|
|
- e.g. `z_vmr = 0.3`. `h2_vmr`, `he_vmr` and `z_vmr` will be automatically adjusted so that their sum is 1. The heavy elements abundances are scaled from the solar abundance.
|
|
|
- `metallicity`
|
|
|
- float
|
|
|
- (solar metallicity) atmospheric metallicity
|
|
|
- e.g. `metallicity = 10.0`. The metallicity is a factor by which all the elemental abundances except H are multiplied compared to their solar abundances. The solar abundances are read in the _data/solar_abundances.dat_ file.
|
|
|
- `n_levels`
|
|
|
- integer
|
|
|
- number of atmospheric levels
|
|
|
- e.g. `n_levels = 81`. If `use_pressure_grid` is `False`, the bottom level has the pressure `pressure_max`, and the top level has the pressure `pressure_min`. `retrieval_level_top` must be lower or equal to this parameter.
|
|
|
- `n_species`
|
|
|
- integer
|
|
|
- number of absorbing species
|
|
|
- e.g. `n_species = 13`. This parameter must match the number of elements in `species_names` and `species_at_equilibrium` (see [`species_parameters`](#species_parameters)).
|
|
|
- `n_cia`
|
|
|
- integer
|
|
|
- number of collision induced absorptions
|
|
|
- e.g. `n_cia = 3`. This parameter must match the number of elements in `cia_names` (see [`species_parameters`](#species_parameters)).
|
|
|
- `n_clouds`
|
|
|
- integer
|
|
|
- number of clouds in atmosphere
|
|
|
- e.g. `n_clouds = 2`. This parameter must match the number of elements in `cloud_names`, `cloud_particle_radius`, `sedimentation_parameter`, `cloud_particle_density`, `cloud_molar_mass` and `reference_wavenumber` (see [`clouds_parameters`](#clouds_parameters)).
|
|
|
|
|
|
## species_parameters
|
|
|
|
|
|
## clouds_parameters
|
|
|
|
|
|
|
|
|
## retrieval_parameters
|
|
|
|
|
|
# Code
|
|
|
**This page is a work in progress**
|
... | ... | |