Astronomy and Astrophysics – Astronomy
Scientific paper
Aug 2009
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2009apj...701l..39m&link_type=abstract
The Astrophysical Journal Letters, Volume 701, Issue 1, pp. L39-L42 (2009).
Astronomy and Astrophysics
Astronomy
5
Planets And Satellites: Formation, Planets And Satellites: Individual: Enceladus
Scientific paper
We describe a formation scenario of Enceladus constrained by the deuterium-to-hydrogen ratio (D/H) in the gas plumes as measured by the Cassini Ion and Neutral Mass Spectrometer. We propose that, similarly to Titan, Enceladus formed from icy planetesimals that were partly devolatilized during their migration within the Kronian subnebula. In our scenario, at least primordial Ar, CO, and N2 were devolatilized from planetesimals during their drift within the subnebula, due to the increasing temperature and pressure conditions of the gas phase. The origin of methane is still uncertain since it might have been either trapped in the planetesimals of Enceladus during their formation in the solar nebula or produced via serpentinization reactions in the satellite's interior. If the methane of Enceladus originates from the solar nebula, then its D/H ratio should range between ~4.7 × 10-5 and 1.5 × 10-4. Moreover, Xe/H2O and Kr/H2O ratios are predicted to be equal to ~7 × 10-7 and 7 × 10-6, respectively, in the satellite's interior. On the other hand, if the methane of Enceladus results from serpentinization reactions, then its D/H ratio should range between ~2.1 × 10-4 and 4.5 × 10-4. In this case, Kr/H2O should not exceed ~10-10 and Xe/H2O should range between ~1 × 10-7 and 7 × 10-7 in the satellite's interior. Future spacecraft missions, such as Titan Saturn System Mission, will have the capability to provide new insight into the origin of Enceladus by testing these observational predictions.
Cordier Daniel
Lewis William S.
Lunine Jonathan I.
Magee Brian
Mandt Kathleen E.
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