ATMOSPHERIC CIRCULATION OF HOT JUPITERS: COUPLED RADIATIVE-DYNAMICAL GENERAL CIRCULATION MODEL SIMULATIONS OF HD 189733b and HD 209458b
Planetary Science Institute · University of California, Santa Cruz · +3 more institutions
Abstract
We present global, three-dimensional numerical simulations of HD 189733b and HD 209458b that couple the atmospheric dynamics to a realistic representation of nongray cloud-free radiative transfer. The model, which we call the Substellar and Planetary Atmospheric Radiation and Circulation model, adopts the MITgcm for the dynamics and uses the radiative model of McKay, Marley, Fortney, and collaborators for the radiation. Like earlier work with simplified forcing, our simulations develop a broad eastward equatorial jet, mean westward flow at higher latitudes, and substantial flow over the poles at low pressure. For HD 189733b, our simulations without TiO and VO opacity can explain the broad features of the…
Citation impact
- FWCI
- 19.32
- Percentile
- 100%
- References
- 71
Authors
7- APAdam P. ShowmanCorresponding
Planetary Science Institute
- JJJonathan J. Fortney
University of California, Santa Cruz
- YLYuan Lian
Planetary Science Institute
- MSMark S. Marley
Ames Research Center
- RSRichard S. Freedman
Ames Research Center, Search for Extraterrestrial Intelligence
Topics & keywords
- Radiative transfer
- Opacity
- Tidal locking
- Hot Jupiter
- Atmospheric circulation
- Planet
- Flux (metallurgy)
- Photometry (optics)