Add to ORKGEvolution of Mars' noble gases through two stages of hydrodynamic escape early in planetary history has been proposed previously by the author. In the first evolutionary stage of this earlier model, beginning at a solar age of approximately 50 m.y., fractionating escape of a H2-rich primordial atmosphere containing CO2, N2, and the noble gases in roughly the proportions found in primitive carbonaceous (CI) chondrites is driven by intense extreme-ultraviolet (EUV) leads to a long (approximately 80 m.y.) period of quiescence, followed by an abrupt degassing of remnant H2, CO2, and N2 from the mantle and of solar-composition noble gases lighter than Xe from the planet's volatile-rich accretional core. Degassed H refuels hydrodynamic loss in a ...
Planetary embryos form protoplanets via mutual collisions, which can lead to the development of magm...
Noble gas analysis of Martian samples can provide answers to a number of crucial questions. Some of ...
Viking measurements of the Martian upper atmosphere indicate thermospheric temperatures below 200°K,...
The conditions under which the valley networks on the ancient cratered terrain on Mars formed are st...
The present Mars atmosphere is relatively thin and cold. It is not at all like that which is presume...
This investigation concentrated on the question of how atmosphere escape, related to both photochemi...
Planetary embryos form protoplanets via mutual collisions, which can lead to the development of magm...
International audienceThe evolution and escape of the martian atmosphere and the planet's water inve...
The martian climate has long been thought to have evolved substantially through history from a warm ...
The total volatile inventory of Mars has been modeled using meteoritic and presumed primordial abund...
AbstractLatest research in planet formation indicates that Mars formed within a few million years (M...
The climate of Mars likely evolved from a warmer, wetter early state to the cold, arid current state...
We examine the effects of the loss of Mars atmospheric constituents by solar-wind-induced sputtering...
The history of the martian atmosphere and climate over time cannot be properly understood without kn...
With a Monte Carlo model we investigate the escape of hot oxygen and carbon from the Martian atmosph...
Planetary embryos form protoplanets via mutual collisions, which can lead to the development of magm...
Noble gas analysis of Martian samples can provide answers to a number of crucial questions. Some of ...
Viking measurements of the Martian upper atmosphere indicate thermospheric temperatures below 200°K,...
The conditions under which the valley networks on the ancient cratered terrain on Mars formed are st...
The present Mars atmosphere is relatively thin and cold. It is not at all like that which is presume...
This investigation concentrated on the question of how atmosphere escape, related to both photochemi...
Planetary embryos form protoplanets via mutual collisions, which can lead to the development of magm...
International audienceThe evolution and escape of the martian atmosphere and the planet's water inve...
The martian climate has long been thought to have evolved substantially through history from a warm ...
The total volatile inventory of Mars has been modeled using meteoritic and presumed primordial abund...
AbstractLatest research in planet formation indicates that Mars formed within a few million years (M...
The climate of Mars likely evolved from a warmer, wetter early state to the cold, arid current state...
We examine the effects of the loss of Mars atmospheric constituents by solar-wind-induced sputtering...
The history of the martian atmosphere and climate over time cannot be properly understood without kn...
With a Monte Carlo model we investigate the escape of hot oxygen and carbon from the Martian atmosph...
Planetary embryos form protoplanets via mutual collisions, which can lead to the development of magm...
Noble gas analysis of Martian samples can provide answers to a number of crucial questions. Some of ...
Viking measurements of the Martian upper atmosphere indicate thermospheric temperatures below 200°K,...