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Saturn’s atmospheric response to the large influx of ring material inferred from Cassini INMS measurements

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posted on 2024-08-29, 10:04 authored by Julianne I Moses, Zarah L Brown, Tommi T Koskinen, Leigh FletcherLeigh Fletcher, Joseph Serigano, Sandrine Guerlet, Luke Moore, J Hunter Waite, Lotfi Ben-Jaffel, Marina Galand, Joshua M Chadney, Sarah M Hörst, James A Sinclair, Veronique Vuitton, Ingo Müller-Wodarg
During the Grand Finale stage of the Cassini mission, organic-rich ring material was discovered to be flowing into Saturn's equatorial upper atmosphere at a surprisingly large rate. Through a series of photochemical models, we have examined the consequences of this ring material on the chemistry of Saturn's neutral and ionized atmosphere. We find that if a substantial fraction of this material enters the atmosphere as vapor or becomes vaporized as the solid ring particles ablate upon atmospheric entry, then the ring-derived vapor would strongly affect the composition of Saturn's ionosphere and neutral stratosphere. Our surveys of Cassini infrared and ultraviolet remote-sensing data from the final few years of the mission, however, reveal none of these predicted chemical consequences. We therefore conclude that either (1) the inferred ring influx represents an anomalous, transient situation that was triggered by some recent dynamical event in the ring system that occurred a few months to a few tens of years before the 2017 end of the Cassini mission, or (2) a large fraction of the incoming material must have been entering the atmosphere as small dust particles less than ∼100 nm in radius, rather than as vapor or as large particles that are likely to ablate. Future observations or upper limits for stratospheric neutral species such as HC3N, HCN, and CO2 at infrared wavelengths could shed light on the origin, timing, magnitude, and nature of a possible vapor-rich ring-inflow event.

History

Author affiliation

College of Science & Engineering Physics & Astronomy

Version

  • VoR (Version of Record)

Published in

Icarus

Volume

391

Pagination

115328

Publisher

Elsevier BV

issn

0019-1035

eissn

1090-2643

Copyright date

2023

Available date

2024-08-29

Language

en

Deposited by

Professor Leigh Fletcher

Deposit date

2024-08-15

Data Access Statement

Data will be made available on request.

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