Because the solar radiation and particle environment plays a major role in all atmospheric processes such as ionization, dissociation, heating of the upper atmospheres, and thermal and non-thermal atmospheric loss processes, the long-time evolution of planetary atmospheres and their water inventories can only be understood within the context of the evolving Sun. We compare the effect of solar induced X-ray and EUV (XUV) heating on the upper atmospheres of Earth, Venus and Mars since the time when the Sun arrived at the Zero-Age-Main-Sequence (ZAMS) about 4.6 Gyr ago. We apply a diffusive-gravitational equilibrium and thermal balance model for studying heating of the early thermospheres by photodissociation and ionization processes, due to e...
International audienceThe present atmosphere of Venus contains almost no water, but recent measureme...
This investigation concentrated on the question of how atmosphere escape, related to both photochemi...
We review our current understanding of the thermosphere and ionosphere of Mars at high and low solar...
Abstract. Because the solar radiation and particle environment plays a major role in all atmospheric...
Abstract. In view of the low H2O abundance in the present Venusian and Martian atmospheres several o...
We review the origin and evolution of the atmospheres of Earth, Venus and Mars from the time when th...
The history of the martian atmosphere and climate over time cannot be properly understood without kn...
444-465Venus is the most explored planet due to the Pioneer Venus mission. In contrast, Mars is rela...
Context. The thermal and chemical structures of the upper atmospheres of planets crucially influence...
Earth, Mars, and Venus formed at about the same time and in the same region of the solar nebula. It ...
The present state of planetary exospheres is determined largely by satellite and ground based obser...
With a Monte Carlo model we investigate the escape of hot oxygen and carbon from the Martian atmosph...
In this study we analyze the non-thermal loss rates of O+, O-2(+) and CO2+ ions over the last 4.5 bi...
Unlike Earth and Venus, Mars with a weak gravity allows an extended corona of hot light species and ...
The ionospheres of Venus and Mars are important components of the planet-space boundary that play a ...
International audienceThe present atmosphere of Venus contains almost no water, but recent measureme...
This investigation concentrated on the question of how atmosphere escape, related to both photochemi...
We review our current understanding of the thermosphere and ionosphere of Mars at high and low solar...
Abstract. Because the solar radiation and particle environment plays a major role in all atmospheric...
Abstract. In view of the low H2O abundance in the present Venusian and Martian atmospheres several o...
We review the origin and evolution of the atmospheres of Earth, Venus and Mars from the time when th...
The history of the martian atmosphere and climate over time cannot be properly understood without kn...
444-465Venus is the most explored planet due to the Pioneer Venus mission. In contrast, Mars is rela...
Context. The thermal and chemical structures of the upper atmospheres of planets crucially influence...
Earth, Mars, and Venus formed at about the same time and in the same region of the solar nebula. It ...
The present state of planetary exospheres is determined largely by satellite and ground based obser...
With a Monte Carlo model we investigate the escape of hot oxygen and carbon from the Martian atmosph...
In this study we analyze the non-thermal loss rates of O+, O-2(+) and CO2+ ions over the last 4.5 bi...
Unlike Earth and Venus, Mars with a weak gravity allows an extended corona of hot light species and ...
The ionospheres of Venus and Mars are important components of the planet-space boundary that play a ...
International audienceThe present atmosphere of Venus contains almost no water, but recent measureme...
This investigation concentrated on the question of how atmosphere escape, related to both photochemi...
We review our current understanding of the thermosphere and ionosphere of Mars at high and low solar...