Add to ORKGThe problem of volatile sources in the martian atomosphere was studied. It is suggested that a combination of an impact by an icy planetesimal (radius about 150 km) and solar wind implantation of neon could explain the noble gas abundances on Venus. Early solar wind would supply the right amount of neon with the correct Ne-20/Ne-22 as compared with lunar soils. However, observations of noble gases in a fresh comet are needed to test this hypothesis
This paper re-evaluates the data for inner Solar System volatiles with particular reference to the E...
Earth, Mars, and Venus formed at about the same time and in the same region of the solar nebula. It ...
This dissertation is an exploration of the effects of the collision of large asteroids and comets on...
The difference between the measured atmospheric abundances of neon, argon, krypton, and xenon for Ve...
Implantation of the ancent solar wind is a possible noble gas source for Venus and gas-rich meteorit...
International audienceThedifference between the measured atmospheric abundances of neon, argon, kryp...
The difference between the measured atmospheric abundances of neon, argon, krypton, and xenon for Ve...
The exploration of Venus continues to be a top priority of planetary science. The Planetary Decadal ...
Abundances of primordial noble gases are lower for Mars than for Earth, but are higher for Venus. Th...
The limited relaxation of shapes of impact craters and high correlation between topography and gravi...
We show that the measured present day atmospheric Ar,Ne isotope ratios and elemental K...
The exploration of Venus continues to be a top priority of planetary science. The Planetary Decadal ...
We review the origin and evolution of the atmospheres of Earth, Venus and Mars from the time when th...
International audienceA detailed characterization of the formation and evolution of Venus is a key l...
International audienceAsteroids impacting the Earth partly volatilize, partly melt (O’Keefe, J.D., A...
This paper re-evaluates the data for inner Solar System volatiles with particular reference to the E...
Earth, Mars, and Venus formed at about the same time and in the same region of the solar nebula. It ...
This dissertation is an exploration of the effects of the collision of large asteroids and comets on...
The difference between the measured atmospheric abundances of neon, argon, krypton, and xenon for Ve...
Implantation of the ancent solar wind is a possible noble gas source for Venus and gas-rich meteorit...
International audienceThedifference between the measured atmospheric abundances of neon, argon, kryp...
The difference between the measured atmospheric abundances of neon, argon, krypton, and xenon for Ve...
The exploration of Venus continues to be a top priority of planetary science. The Planetary Decadal ...
Abundances of primordial noble gases are lower for Mars than for Earth, but are higher for Venus. Th...
The limited relaxation of shapes of impact craters and high correlation between topography and gravi...
We show that the measured present day atmospheric Ar,Ne isotope ratios and elemental K...
The exploration of Venus continues to be a top priority of planetary science. The Planetary Decadal ...
We review the origin and evolution of the atmospheres of Earth, Venus and Mars from the time when th...
International audienceA detailed characterization of the formation and evolution of Venus is a key l...
International audienceAsteroids impacting the Earth partly volatilize, partly melt (O’Keefe, J.D., A...
This paper re-evaluates the data for inner Solar System volatiles with particular reference to the E...
Earth, Mars, and Venus formed at about the same time and in the same region of the solar nebula. It ...
This dissertation is an exploration of the effects of the collision of large asteroids and comets on...
.svg%3Fwidth%3D300&w=3840&q=75)
.svg%3Fwidth%3D300&w=3840&q=75)
