Add to ORKGLuhmann et al. recently suggested that sputtering of the Martian atmosphere by re-entering O(+) pickup ions could have provided a significant route of escape for CO2 and its products throughout Mars' history. They estimated that the equivalent of C in an approximately 140-mbar CO2 atmosphere should have been lost this way if the Sun and solar wind evolved according to available models. Another source of escaping C (and O) that is potentially important is the dissociative recombination of ionospheric CO(+) near the exobase. We have evaluated the loss rates due to this process for 'ancient' solar EUV radiation fluxes of 1, 3, and 6 times the present flux in order to calculate the possible cumulative loss over the last 3.5 Gyr
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Photochemical escape of atomic oxygen is thought to be one of the dominant channels for Martian atmo...
Context. Characterizing the response of the upper Martian atmosphere to solar flares could provide i...
Evolution of Mars' noble gases through two stages of hydrodynamic escape early in planetary history ...
We have modeled the escape fluxes of atomic carbon from the Martian atmosphere for low and high sola...
Loss of CO$_2$ from the Martian atmosphere has driven drastic changes in the Martian climate since t...
This investigation concentrated on the question of how atmosphere escape, related to both photochemi...
Abstract. Nonthermal processes such as dissociative recombination of ionosphenc molecules are known ...
With a Monte Carlo model we investigate the escape of hot oxygen and carbon from the Martian atmosph...
We examine the effects of loss of Mars atmospheric constituents by solar-wind-induced sputtering and...
The possible indicators of impending Martian dust storms are discussed. Topics covered include the f...
The history of the martian atmosphere and climate over time cannot be properly understood without kn...
We examine the effects of the loss of Mars atmospheric constituents by solar-wind-induced sputtering...
Because Mars does not have a strong intrinsic magnetic field, the atmosphere is eroded by interactio...
Present-day Mars is a cold and dry planet with a thin CO2-dominated atmosphere comprising only a few...
International audienceMars atmospheres changed a lot during its evolution and especially for the ear...
Photochemical escape of atomic oxygen is thought to be one of the dominant channels for Martian atmo...
Context. Characterizing the response of the upper Martian atmosphere to solar flares could provide i...
Evolution of Mars' noble gases through two stages of hydrodynamic escape early in planetary history ...
We have modeled the escape fluxes of atomic carbon from the Martian atmosphere for low and high sola...
Loss of CO$_2$ from the Martian atmosphere has driven drastic changes in the Martian climate since t...
This investigation concentrated on the question of how atmosphere escape, related to both photochemi...
Abstract. Nonthermal processes such as dissociative recombination of ionosphenc molecules are known ...
With a Monte Carlo model we investigate the escape of hot oxygen and carbon from the Martian atmosph...
We examine the effects of loss of Mars atmospheric constituents by solar-wind-induced sputtering and...
The possible indicators of impending Martian dust storms are discussed. Topics covered include the f...
The history of the martian atmosphere and climate over time cannot be properly understood without kn...
We examine the effects of the loss of Mars atmospheric constituents by solar-wind-induced sputtering...
Because Mars does not have a strong intrinsic magnetic field, the atmosphere is eroded by interactio...
Present-day Mars is a cold and dry planet with a thin CO2-dominated atmosphere comprising only a few...
International audienceMars atmospheres changed a lot during its evolution and especially for the ear...
Photochemical escape of atomic oxygen is thought to be one of the dominant channels for Martian atmo...
Context. Characterizing the response of the upper Martian atmosphere to solar flares could provide i...
Evolution of Mars' noble gases through two stages of hydrodynamic escape early in planetary history ...