Changes

Page history
Update Getting started authored by Doriann Blain's avatar Doriann Blain
Hide whitespace changes
Inline Side-by-side
Getting-started.md
View page @ 48793695
......@@ -10,7 +10,8 @@ If you downloaded the archive in the [_dist_](https://gitlab.obspm.fr/dblain/exo
5. Verify if all the condensates and gases thermochemical tables are in the _data/thermochemical_tables_ directory. If you want to add more species to the chemical model, respect the same format and use "speciesName.tct.dat" as file name (e.g. "H2O.tct.dat").
6. Put a temperature profile as a priori inside the _inputs/atmospheres/temperature_profiles_ directory. The *Exo-REM* data format must be respected. You should have received an example of such a file with your *Exo-REM* distribution.
# Setup
# First run
## Setup
In this example, we will simulate the atmosphere of CoRoT-4 b, a well studied planet. A good source of planetary information can be found [here](https://exoplanetarchive.ipac.caltech.edu/). We will use the parameters from Moutou et al. 2008.
Copy and edit the file _inputs/example.nml_, rename it _corot-4b.nml_. An extended description of the input parameters is available [here]().
......@@ -70,7 +71,7 @@ Copy and edit the file _inputs/example.nml_, rename it _corot-4b.nml_. An extend
```
9. Now we should be ready to go !
# Running
## Running
1. Open a terminal.
2. `cd` yourself into the Exo-REM _bin_ directory.
3. Launch the calculations by executing:
......@@ -82,7 +83,9 @@ During the run, keep a look in the terminal at how much the temperature vary (`d
By default, at the end of the calculations, the results are stored in the _outputs/exorem_ directory.
# Plotting
## Plotting
**Before starting:** The *Exo-REM* plot functions require Python3. Sometimes to force the use of the Python3 interpreter over the Python2 interpreter, you need to use the command `python3` instead of `python`.
Let's take a look at our results. Go back to the _exorem_ directory and execute:
```bash
python exorem_plot.py corot-4b
......@@ -185,3 +188,21 @@ The temperature profile figure (temperature_profile_corot-4b) should look like t
And the transmission spectrum should look like this:
![transmission_spectrum_corot-4b_R500](uploads/51da1babc3b2219569a0d861ae645c73/transmission_spectrum_corot-4b_R500.png)
## Better figures
Not happy with the figures you get ? What if for example you wanted to see the contributions of everything but clouds between 0.5 and 1.5 µm ? To do that, open inside the *Exo-REM* main directory a python console:
```bash
python
```
Then, simply do:
```python
from src.python.plot_figures import * # import everything from plot_figures
plot_contribution_transmission_spectra(
'./outputs/exorem/spectra_corot-4b_R500.dat',
wvn2wvl=True,
xmin=0.5e-6,
xmax=1.5e-6,
exclude=['clouds']
)
```
\ No newline at end of file