Add to ORKGWe developed a 1D photo-thermochemical model to study the atmosphere of warm exoplanets. The chemical scheme used in this model is completely new in planetology and has been constructed in collaboration with specialists of combustion. It has been validated as a whole through experiments on a large range of temperature (300 - 2500 K) and pressure (1 mbar - 100 bar), allowing to study a wide variety of exoplanets. We have used this chemical model to study the atmosphere of two warm Neptunes, GJ3470b and GJ436b, and the influence of different parameters (vertical mixing, metallicity, temperature,...) on their chemical composition. We present here the results obtained in these studies.status: publishe
International audienceWe have developed a new model to study the atmospheres of exoplanets, adapted ...
18 pages, 23 figures, accepted for publication in A&AInternational audienceSeveral chemical networks...
Some super Earths and mini Neptunes will likely have thick atmospheres that are not H2-dominated. We...
We developed a 1D photo-thermochemical model to study the atmosphere of warm exoplanets. The chemica...
We developed a 1D photo-thermochemical model to study the atmosphere of warm exoplanets. The chemica...
Received; accepted Context. Current observation techniques are able to probe the atmosphere of some ...
Context. Current observation techniques are able to probe the atmosphere of some giant exoplanets an...
We have developed a new model to study the atmosphere of exoplanets adapted to the characteristics o...
Hot Jupiters are a class of exoplanets very interesting to study. Indeed, these giant planets, orbit...
The dissipation of the tidal energy deposited on eccentric planets may induce a heating of the plane...
We have created a new model to study the atmosphere of exoplanets. Derivated from a car engine combu...
International audienceThe dissipation of the tidal energy deposited on eccentric planets may induce ...
Our purpose is to release a chemical network, and the associated rate coefficients, developed for th...
Context. Current observation techniques are able to probe the atmosphere of some giant exoplanets an...
The atmospheres of sub-Neptunes are expected to exhibit considerable chemical diversity, beyond what...
International audienceWe have developed a new model to study the atmospheres of exoplanets, adapted ...
18 pages, 23 figures, accepted for publication in A&AInternational audienceSeveral chemical networks...
Some super Earths and mini Neptunes will likely have thick atmospheres that are not H2-dominated. We...
We developed a 1D photo-thermochemical model to study the atmosphere of warm exoplanets. The chemica...
We developed a 1D photo-thermochemical model to study the atmosphere of warm exoplanets. The chemica...
Received; accepted Context. Current observation techniques are able to probe the atmosphere of some ...
Context. Current observation techniques are able to probe the atmosphere of some giant exoplanets an...
We have developed a new model to study the atmosphere of exoplanets adapted to the characteristics o...
Hot Jupiters are a class of exoplanets very interesting to study. Indeed, these giant planets, orbit...
The dissipation of the tidal energy deposited on eccentric planets may induce a heating of the plane...
We have created a new model to study the atmosphere of exoplanets. Derivated from a car engine combu...
International audienceThe dissipation of the tidal energy deposited on eccentric planets may induce ...
Our purpose is to release a chemical network, and the associated rate coefficients, developed for th...
Context. Current observation techniques are able to probe the atmosphere of some giant exoplanets an...
The atmospheres of sub-Neptunes are expected to exhibit considerable chemical diversity, beyond what...
International audienceWe have developed a new model to study the atmospheres of exoplanets, adapted ...
18 pages, 23 figures, accepted for publication in A&AInternational audienceSeveral chemical networks...
Some super Earths and mini Neptunes will likely have thick atmospheres that are not H2-dominated. We...