Context. The anomalously large radii of hot Jupiters has long been a mystery. However, by combining both theoretical arguments and 2D models, a recent study has suggested that the vertical advection of potential temperature leads to a hotter adiabatic temperature profile in the deep atmosphere than the profile obtained with standard 1D models. Aims. In order to confirm the viability of that scenario, we extend this investigation to 3D, time-dependent models. Methods. We use a 3D general circulation model DYNAMICO to perform a series of calculations designed to explore the formation and structure of the driving atmospheric circulations, and detail how it responds to changes in both the upper and deep atmospheric forcing. Results. In agreemen...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...
International audienceContext. The anomalously large radii of hot Jupiters has long been a mystery. ...