In this thesis, we study the effect of diurnally- and seasonally-varying forcing on the global circulation of planetary atmospheres explored within a large parameter space. This work focusses on studying the spacial and spectral energy budgets across a large range of planetary parameters as well as the momentum transfer as a response to diurnal and seasonal effects. We simulate planetary atmospheres using PUMA-GT, a simple GCM co-developed for this work, that is forced by a semi-grey two-band radiative-convective scheme, dissipated by Rayleigh friction and allows for temporally varying insolation. Our parameter regime includes the variation of the planetary rotation rate, frictional timescale in the boundary layer, the thermal inertia of ...
We survey the basic principles of atmospheric dynamics relevant to explaining existing and future ob...
In this thesis, the near-surface environment on Mars is studied in connection to the general atmosph...
A planetary atmosphere is said to be super-rotating if the total axial angular momentum of the atmos...
This thesis presents the studies of terrestrial planetary atmospheric circula- tion regimes using si...
The energetics of possible global atmospheric circulation patterns in an Earth-like atmosphere are e...
This thesis presents the studies of terrestrial planetary atmospheric circula- tion regimes using si...
The solar system presents us with a number of planetary bodies with shallow atmospheres that are suf...
The regimes of possible global atmospheric circulation patterns in an Earth‐like atmosphere are expl...
International audienceContext. Atmospheric tides can strongly affect the rotational dynamics of plan...
International audienceAbstract Superrotation is a dynamical regime where the atmosphere circulates a...
We present simulations of atmospheres of Earth-like aquaplanets that are tidally locked to their sta...
International audienceThe energetics of possible global atmospheric circulation patterns in an Earth...
AbstractIn order to investigate a possible variety of atmospheric states realized on a synchronously...
We survey the basic principles of atmospheric dynamics relevant to explaining existing and future ob...
In this thesis, the near-surface environment on Mars is studied in connection to the general atmosph...
A planetary atmosphere is said to be super-rotating if the total axial angular momentum of the atmos...
This thesis presents the studies of terrestrial planetary atmospheric circula- tion regimes using si...
The energetics of possible global atmospheric circulation patterns in an Earth-like atmosphere are e...
This thesis presents the studies of terrestrial planetary atmospheric circula- tion regimes using si...
The solar system presents us with a number of planetary bodies with shallow atmospheres that are suf...
The regimes of possible global atmospheric circulation patterns in an Earth‐like atmosphere are expl...
International audienceContext. Atmospheric tides can strongly affect the rotational dynamics of plan...
International audienceAbstract Superrotation is a dynamical regime where the atmosphere circulates a...
We present simulations of atmospheres of Earth-like aquaplanets that are tidally locked to their sta...
International audienceThe energetics of possible global atmospheric circulation patterns in an Earth...
AbstractIn order to investigate a possible variety of atmospheric states realized on a synchronously...
We survey the basic principles of atmospheric dynamics relevant to explaining existing and future ob...
In this thesis, the near-surface environment on Mars is studied in connection to the general atmosph...
A planetary atmosphere is said to be super-rotating if the total axial angular momentum of the atmos...