... | ... | @@ -172,13 +172,29 @@ The `atmosphere_parameters` section handles the atmospheric settings. |
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- if True, use the atmospheric metallicity instead of the element/H ratios or the elements metallicity to get the elemental abundances
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- e.g. `use_atmospheric_metallicity = False`. In that case, the elemental abundances are calculated from `elements_h_ratio` if `use_elements_metallicity` is `False`, or else from `elements_metallicity`. If `True`, the elemental abundances are calculated only from `metallicity` (see [`atmosphere_parameters`](#atmosphere_parameters)).
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- Example:
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- `use_atmospheric_metallicity = False`, `metallicity = 10`: He/H, C/H, O/H, N/H ... are set to 10 times their solar value.
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- `use_atmospheric_metallicity = True`, `metallicity = 10`, `use_elements_metallicity = False`, `elements_names = 'He', 'C'`, `elements_h_ratio = 8e-2, 1e-30`: He/H = 8e-2, C/H = 1e-30. O/H, N/H, ... are set to 10 times their solar value.
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- `use_atmospheric_metallicity = True`, `metallicity = 10`, `use_elements_metallicity = True`, `elements_names = 'He', 'C'`, `elements_metallicity = 1, 5`: He/H is set to 1 times its solar value. C/H is set to 5 times its solar value. O/H, N/H, ... are set to 10 times their solar value.
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- `use_atmospheric_metallicity = True`, `metallicity = 10`: He/H, C/H, O/H, N/H ... are set to 10 times their solar value.
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- `use_atmospheric_metallicity = False`, `metallicity = 10`, `use_elements_metallicity = False`, `elements_names = 'He', 'C'`, `elements_h_ratio = 8e-2, 1e-30`: He/H = 8e-2, C/H = 1e-30. O/H, N/H, ... are set to 10 times their solar value.
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- `use_atmospheric_metallicity = False`, `metallicity = 10`, `use_elements_metallicity = True`, `elements_names = 'He', 'C'`, `elements_metallicity = 1, 5`: He/H is set to 1 times its solar value. C/H is set to 5 times its solar value. O/H, N/H, ... are set to 10 times their solar value.
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- `use_elements_metallicity`
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- boolean
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- if True, use the atmospheric metallicity instead of the element/H ratios or the elements metallicity to get the elemental abundances
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- e.g. `use_atmospheric_metallicity = False`. In that case, the elemental abundances are calculated from `elements_h_ratio` if `use_elements_metallicity` is `False`, or else from `elements_metallicity`. If `True`, the elemental abundances are calculated only from `metallicity` (see [`atmosphere_parameters`](#atmosphere_parameters)).
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- `elements_names`
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- list of strings
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- elements listed here won't have the atmospheric metallicity if use_atmospheric_metallicity is False (atmosphere_parameters/metallicity)
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- e.g. `elements_names = 'He', 'Ne', 'Ar', 'Kr', 'Xe'` to set the elemental abundances of the noble gases at a different value than `metallicity`.
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- `elements_h_ratio`
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- list of float
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- <element>/H ratio of the elements listed above (only used if both use_atmospheric_metallicity and use_elements_metallicity are False)
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- e.g. `elements_h_ratio = 8.395e-2, 1e-30, 1e-30, 1e-30, 1e-30`, in combination with the example above for `elements_names`, `use_elements_metallicity = False`, `use_atmospheric_metallicity = False`, to set He/H = 8.395e-2, Ne/H = 1e-30, ...
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- `elements_metallicity`
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- list of float
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- (solar metallicity) elemental metallicity of the elements listed above
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- e.g. `elements_metallicity = 1, 1, 1, 1, 1`, in combination with the example above for `elements_names`, `use_elements_metallicity = True`, `use_atmospheric_metallicity = False`, to set elemental abundances of the noble gases to 1 time their solar value.
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- `species_names`
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- list of strings
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- absorbing species in atmosphere
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- e.g. `species_names = 'CH4', 'CO', 'CO2', 'FeH', 'H2O', 'H2S', 'HCN', 'K', 'Na', 'NH3', 'PH3', 'TiO', 'VO'`. The number of elements must match `n_species` (see [`atmosphere_parameters`](#atmosphere_parameters)).
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## clouds_parameters
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... | ... | |