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The deep composition of Uranus and Neptune from in situ exploration and thermochemical modeling
journal contribution
posted on 2020-05-06, 10:05 authored by Thibault Cavalié, Olivia Venot, Yamila Miguel, Leigh N Fletcher, Peter Wurz, Olivier Mousis, Roda Bounaceur, Vincent Hue, Jérémy Leconte, Michel DobrijevicThe distant ice giants of the Solar System, Uranus and Neptune, have only
been visited by one space mission, Voyager 2. The current knowledge on their
composition remains very limited despite some recent advances. A better
characterization of their composition is however essential to constrain their
formation and evolution, as a significant fraction of their mass is made of
heavy elements, contrary to the gas giants Jupiter and Saturn. An in situ probe
like Galileo would provide us with invaluable direct ground-truth composition
measurements. However, some of the condensibles will remain out of the grasp of
a shallow probe. While additional constraints could be obtained from a
complementary orbiter, thermochemistry and diffusion modeling can further help
us to increase the science return of an in situ probe.
Funding
T. Cavali ́e, O. Venot, and O. Mousis acknowledge support from CNES and the Pro-gramme National de Plan ́etologie (PNP) of CNRS/INSU.
History
Citation
Space Science Reviews, 2020, In PressVersion
- AM (Accepted Manuscript)
