Add to ORKGInternational audienceWe describe a project to model the microphysics of Venusian clouds. The goal of the project is to complete the IPSL Venus 3D GCM with a cloud microphysics module
International audienceFor decades, clouds have remained a central open question in understanding the...
International audienceTo investigate the amount of data recently acquired by the Venus Express (VEx)...
International audienceHere, we present a status report of MAD-VenLA. The results of the thermodynami...
International audienceWe describe a project to model the microphysics of Venusian clouds. The goal o...
International audienceVenus is a terrestrial planet enshrouded by 20 km-thick clouds, which are comp...
International audienceTo understand the Venus atmosphere, LMD and LATMOS laboratories have developed...
International audienceVenus is enshrouded by 20km-thick clouds, which are composed of sulfuric acid-...
Les conditions à la surface de Vénus sont infernales : température de plus de 400 C, pression atmosp...
International audienceWe have developed a microphysical model for Venus’ sulfuric acid clouds. The V...
The conditions on the surface of Venus are infernal: temperature of more than 400 C, 90 times the Ea...
International audienceThe LATMOS Venus cloud model VenLA (Venus Liquid Aerosols) is based on a terre...
International audienceFor decades, clouds have remained a central open question in understanding the...
International audienceTo investigate the amount of data recently acquired by the Venus Express (VEx)...
International audienceHere, we present a status report of MAD-VenLA. The results of the thermodynami...
International audienceWe describe a project to model the microphysics of Venusian clouds. The goal o...
International audienceVenus is a terrestrial planet enshrouded by 20 km-thick clouds, which are comp...
International audienceTo understand the Venus atmosphere, LMD and LATMOS laboratories have developed...
International audienceVenus is enshrouded by 20km-thick clouds, which are composed of sulfuric acid-...
Les conditions à la surface de Vénus sont infernales : température de plus de 400 C, pression atmosp...
International audienceWe have developed a microphysical model for Venus’ sulfuric acid clouds. The V...
The conditions on the surface of Venus are infernal: temperature of more than 400 C, 90 times the Ea...
International audienceThe LATMOS Venus cloud model VenLA (Venus Liquid Aerosols) is based on a terre...
International audienceFor decades, clouds have remained a central open question in understanding the...
International audienceTo investigate the amount of data recently acquired by the Venus Express (VEx)...
International audienceHere, we present a status report of MAD-VenLA. The results of the thermodynami...