Planetary rotation rate is a key parameter in determining atmospheric circulation and hence the spatial pattern of clouds. Since clouds can exert a dominant control on planetary radiation balance, rotation rate could be critical for determining the mean planetary climate. Here we investigate this idea using a three-dimensional general circulation model with a sophisticated cloud scheme. We find that slowly rotating planets (like Venus) can maintain an Earth-like climate at nearly twice the stellar flux as rapidly rotating planets (like Earth). This suggests that many exoplanets previously believed to be too hot may actually be habitable, depending on their rotation rate. The explanation for this behavior is that slowly rotating planets have...
International audienceA few of the planets found in the insolation habitable zone (region in which a...
International audienceThe competition between the torques induced by solid and thermal tides drives ...
The integrated thermal emission of an exoplanet and its variations along the orbital motion can carr...
The role of rotation in planetary atmospheres plays an important role in regulating atmospheric and ...
We present simulations of atmospheres of Earth-like aquaplanets that are tidally locked to their sta...
International audienceContext. Atmospheric tides can strongly affect the rotational dynamics of plan...
Present-day Venus is an inhospitable place with surface temperatures approaching 750K and an atmosph...
International audienceTerrestrial planets in the classic "habitable zone" (Kasting et al. 1993) of s...
Planetary rotation rate has a significant effect on atmospheric circulation, where the strength of t...
Tide-locked planets are planets in which tidal stresses from the host star have spun down the planet...
Rotation and orbital eccentricity both strongly influence planetary climate. Eccentricities can ofte...
The recent detections of temperate terrestrial planets orbiting nearby stars and the promise of char...
Present-day Venus is an inhospitable place with surface temperatures approaching 750 K and an atmosp...
The competition between the torques induced by solid and thermal tides drives the rotational dynamic...
International audienceA few of the planets found in the insolation habitable zone (region in which a...
International audienceThe competition between the torques induced by solid and thermal tides drives ...
The integrated thermal emission of an exoplanet and its variations along the orbital motion can carr...
The role of rotation in planetary atmospheres plays an important role in regulating atmospheric and ...
We present simulations of atmospheres of Earth-like aquaplanets that are tidally locked to their sta...
International audienceContext. Atmospheric tides can strongly affect the rotational dynamics of plan...
Present-day Venus is an inhospitable place with surface temperatures approaching 750K and an atmosph...
International audienceTerrestrial planets in the classic "habitable zone" (Kasting et al. 1993) of s...
Planetary rotation rate has a significant effect on atmospheric circulation, where the strength of t...
Tide-locked planets are planets in which tidal stresses from the host star have spun down the planet...
Rotation and orbital eccentricity both strongly influence planetary climate. Eccentricities can ofte...
The recent detections of temperate terrestrial planets orbiting nearby stars and the promise of char...
Present-day Venus is an inhospitable place with surface temperatures approaching 750 K and an atmosp...
The competition between the torques induced by solid and thermal tides drives the rotational dynamic...
International audienceA few of the planets found in the insolation habitable zone (region in which a...
International audienceThe competition between the torques induced by solid and thermal tides drives ...
The integrated thermal emission of an exoplanet and its variations along the orbital motion can carr...