Add to ORKGA climate model of intermediate complexity, named the Mars Climate Simulator, has been developed based on the Portable University Model of the Atmosphere (PUMA). The main goal of this new development is to simulate the climate variations on Mars resulting from the changes in orbital parameters and their impact on the layered polar terrains (also known as permanent polar ice caps). As a first step towards transient simulations over several obliquity cycles, the model is applied to simulate the dynamical and thermodynamical response of the Martian climate system to different but fixed obliquity angles. The model is forced by the annual and daily cycle of solar insolation. Experiments have been performed for obliquities of ø=15° (minimum), ø=2...
International audienceThe Mars atmosphere Global Climate Model (GCM) developed at the Laboratoire de...
Graduation date: 2005The Penn-State/NCAR MM5 mesoscale model was adapted for mesoscale\ud simulation...
To study the impact of model horizontal resolution on the simulated climate of Mars, we increased th...
A climate model of intermediate complexity, named the Mars Climate Simulator, has been developed bas...
We examine the response of Martian climate to changes in solar energy deposition caused by variation...
We use a 3-D general circulation model to compare the primitive Martian hydrological cycle in “warm ...
International audienceWe use a 3-D general circulation model to compare the primitive Martian hydrol...
We describe a set of two "new generation" general circulation models of the Martian atmosphere deriv...
Observations of the surface of Mars suggest a high probability of surface water activity in that pla...
Using a ground-to-exosphere general circulation model for Mars we have simulated the variability of ...
For more than 20 years, several teams around the world have developed GCMs (Mars General Circulation...
The objective of this thesis is to present a configuration of the UM simulating the Martian climate ...
International audienceGlobal climate modeling of the Mars water cycle is usually performed at relati...
International audienceThe Mars atmosphere Global Climate Model (GCM) developed at the Laboratoire de...
Graduation date: 2005The Penn-State/NCAR MM5 mesoscale model was adapted for mesoscale\ud simulation...
To study the impact of model horizontal resolution on the simulated climate of Mars, we increased th...
A climate model of intermediate complexity, named the Mars Climate Simulator, has been developed bas...
We examine the response of Martian climate to changes in solar energy deposition caused by variation...
We use a 3-D general circulation model to compare the primitive Martian hydrological cycle in “warm ...
International audienceWe use a 3-D general circulation model to compare the primitive Martian hydrol...
We describe a set of two "new generation" general circulation models of the Martian atmosphere deriv...
Observations of the surface of Mars suggest a high probability of surface water activity in that pla...
Using a ground-to-exosphere general circulation model for Mars we have simulated the variability of ...
For more than 20 years, several teams around the world have developed GCMs (Mars General Circulation...
The objective of this thesis is to present a configuration of the UM simulating the Martian climate ...
International audienceGlobal climate modeling of the Mars water cycle is usually performed at relati...
International audienceThe Mars atmosphere Global Climate Model (GCM) developed at the Laboratoire de...
Graduation date: 2005The Penn-State/NCAR MM5 mesoscale model was adapted for mesoscale\ud simulation...
To study the impact of model horizontal resolution on the simulated climate of Mars, we increased th...