The Astrophysical Journal (Jan 2023)

A Recent Impact Origin of Saturn’s Rings and Mid-sized Moons

  • L. F. A. Teodoro,
  • J. A. Kegerreis,
  • P. R. Estrada,
  • M. Ćuk,
  • V. R. Eke,
  • J. N. Cuzzi,
  • R. J. Massey,
  • T. D. Sandnes

DOI
https://doi.org/10.3847/1538-4357/acf4ed
Journal volume & issue
Vol. 955, no. 2
p. 137

Abstract

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We simulate the collision of precursor icy moons analogous to Dione and Rhea as a possible origin for Saturn’s remarkably young rings. Such an event could have been triggered a few hundred million years ago by resonant instabilities in a previous satellite system. Using high-resolution smoothed particle hydrodynamics simulations, we find that this kind of impact can produce a wide distribution of massive objects and scatter material throughout the system. This includes the direct placement of pure-ice ejecta onto orbits that enter Saturn’s Roche limit, which could form or rejuvenate rings. In addition, fragments and debris of rock and ice totaling more than the mass of Enceladus can be placed onto highly eccentric orbits that would intersect with any precursor moons orbiting in the vicinity of Mimas, Enceladus, or Tethys. This could prompt further disruption and facilitate a collisional cascade to distribute more debris for potential ring formation, the re-formation of the present-day moons, and evolution into an eventual cratering population of planetocentric impactors.

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