Add to ORKGThe composition the atmosphere of Venus results from the integration of many processes entering into play over the entire geological history of the planet. Determining the elemental abundances and isotopic ratios of noble gases (He, Ne, Ar, Kr, Xe) and stable isotopes (H, C, N, O, S) in the Venus atmosphere is a high priority scientific target since it could open a window on the origin and early evolution of the entire planet. This chapter provides an overview of the existing dataset on noble gases and stable isotopes in the Venus atmosphere. The current state of knowledge on the origin and early and long-term evolution of the Venus atmosphere deduced from this dataset is summarized. A list of persistent and new unsolved scientific question...
We show that the measured present day atmospheric Ar,Ne isotope ratios and elemental K...
In this chapter, we review the contribution of space missions to the determination of the elemental ...
Here we discuss the current state of knowledge of terrestrial planet formation from the aspects of d...
International audienceThe composition the atmosphere of Venus results from the integration of many p...
International audienceA detailed characterization of the formation and evolution of Venus is a key l...
Venus is the closest and most similar planet to Earth in the whole solar system, yet, basic measurem...
Measurement of noble gas abundances on Venus remain a high priority for planetary science. These stu...
International audienceThe atmospheric noble gas isotope and elemental bulk ratios on Venus and Earth...
The exploration of Venus continues to be a top priority of planetary science. The Planetary Decadal ...
International audienceWhile Venus and Earth were accumulating mass within the solar nebular these pr...
We review the origin and evolution of the atmospheres of Earth, Venus and Mars from the time when th...
In-situ sampling of the Venus atmosphere is crucial for understanding the planet’s complex history. ...
International audienceHere we discuss the current state of knowledge on how atmospheric escape proce...
International audienceThe 2023 Planetary Science Decadal Survey recommended a Uranus Orbiter and Pro...
Venus’ atmosphere has a rich chemistry involving interactions among sulfur, chlorine, nitrogen, hyd...
We show that the measured present day atmospheric Ar,Ne isotope ratios and elemental K...
In this chapter, we review the contribution of space missions to the determination of the elemental ...
Here we discuss the current state of knowledge of terrestrial planet formation from the aspects of d...
International audienceThe composition the atmosphere of Venus results from the integration of many p...
International audienceA detailed characterization of the formation and evolution of Venus is a key l...
Venus is the closest and most similar planet to Earth in the whole solar system, yet, basic measurem...
Measurement of noble gas abundances on Venus remain a high priority for planetary science. These stu...
International audienceThe atmospheric noble gas isotope and elemental bulk ratios on Venus and Earth...
The exploration of Venus continues to be a top priority of planetary science. The Planetary Decadal ...
International audienceWhile Venus and Earth were accumulating mass within the solar nebular these pr...
We review the origin and evolution of the atmospheres of Earth, Venus and Mars from the time when th...
In-situ sampling of the Venus atmosphere is crucial for understanding the planet’s complex history. ...
International audienceHere we discuss the current state of knowledge on how atmospheric escape proce...
International audienceThe 2023 Planetary Science Decadal Survey recommended a Uranus Orbiter and Pro...
Venus’ atmosphere has a rich chemistry involving interactions among sulfur, chlorine, nitrogen, hyd...
We show that the measured present day atmospheric Ar,Ne isotope ratios and elemental K...
In this chapter, we review the contribution of space missions to the determination of the elemental ...
Here we discuss the current state of knowledge of terrestrial planet formation from the aspects of d...