Add to ORKGThe formation mechanisms of the ice giants Uranus and Neptune, and the origin of their elemental and isotopic compositions, have long been debated. The density of solids in the outer protosolar nebula is too low to explain their formation, and spectroscopic observations show that both planets are highly enriched in carbon, very poor in nitrogen, and the ices from which they originally formed might had deuterium-to-hydrogen ratios lower than the predicted cometary value, unexplained properties observed in no other planets. Here we show that all these properties can be explained naturally if Uranus and Neptune both formed at the carbon monoxide iceline. Due to the diffusive redistribution of vapors, this outer region of the protosolar nebula ...
Uranus and Neptune are the last unexplored planets of the Solar System. I show that they hold crucia...
We use an evolutionary turbulent model of Jupiter’s subnebula to constrain the composition of ices i...
Jupiter and Saturn are assumed to be ‘gas giants ’ because of their low average densities, but this ...
The formation mechanisms of the ice giants Uranus and Neptune, and the origin of their elemental and...
We aim at investigating whether the chemical composition of the outer region of the protosolar nebul...
To understand the role that planet formation history has on the observable atmospheric carbon-to-oxy...
Exoplanet surveys have identified a category of giant planets that orbit very close to their host st...
Existing observations of Uranus and Neptune’s fundamental physical properties can be fitted with a w...
Motivated by recent spectroscopic observations suggesting that atmospheres of some extrasolar giant ...
The composition of planets is determined by and tightly linked to the composition of the protoplanet...
International audienceThe composition of planetesimals depends upon the epoch and the location of th...
The C–to–O ratio is a crucial determinant of the chemical properties of planets. The recent observa-...
To understand the role that planet formation history has on the observable atmospheric carbon-to-oxy...
Giant planet atmospheric composition and satellite densities provide insights into protoplanetary di...
Context. Solar and extrasolar comets and extrasolar planets are the subject of numerous studies in o...
Uranus and Neptune are the last unexplored planets of the Solar System. I show that they hold crucia...
We use an evolutionary turbulent model of Jupiter’s subnebula to constrain the composition of ices i...
Jupiter and Saturn are assumed to be ‘gas giants ’ because of their low average densities, but this ...
The formation mechanisms of the ice giants Uranus and Neptune, and the origin of their elemental and...
We aim at investigating whether the chemical composition of the outer region of the protosolar nebul...
To understand the role that planet formation history has on the observable atmospheric carbon-to-oxy...
Exoplanet surveys have identified a category of giant planets that orbit very close to their host st...
Existing observations of Uranus and Neptune’s fundamental physical properties can be fitted with a w...
Motivated by recent spectroscopic observations suggesting that atmospheres of some extrasolar giant ...
The composition of planets is determined by and tightly linked to the composition of the protoplanet...
International audienceThe composition of planetesimals depends upon the epoch and the location of th...
The C–to–O ratio is a crucial determinant of the chemical properties of planets. The recent observa-...
To understand the role that planet formation history has on the observable atmospheric carbon-to-oxy...
Giant planet atmospheric composition and satellite densities provide insights into protoplanetary di...
Context. Solar and extrasolar comets and extrasolar planets are the subject of numerous studies in o...
Uranus and Neptune are the last unexplored planets of the Solar System. I show that they hold crucia...
We use an evolutionary turbulent model of Jupiter’s subnebula to constrain the composition of ices i...
Jupiter and Saturn are assumed to be ‘gas giants ’ because of their low average densities, but this ...