Litcius/Paper detail

Tracking the Evolution of an Ocean Within Mimas Using the Herschel Impact Basin

C. Adeene Denton, A. R. Rhoden

2022Geophysical Research Letters10 citationsDOIOpen Access PDF

Abstract

Abstract Mimas' small size, lack of geologic activity, and high eccentricity suggest a frozen, inactive history. However, Cassini libration measurements are best explained by a present‐day liquid ocean under an ice shell 24–31 km thick, a configuration that tidal heating can support. These unexpected findings have motivated further study of Mimas' surface geology to constrain its interior evolution. Here, we model the formation of Mimas' large impact basin, Herschel, using iSALE‐2D. Our goal is to determine whether the current estimated ice shell thickness is sufficient to withstand the impact and produce the observed basin morphology. We find that, if Mimas had an ocean at the time of the Herschel‐forming impact, the ice shell had to have been 10s of km thicker than today. These findings are consistent with inferences from minimal tectonic activity that Mimas must be a young ocean world, if it indeed has an ocean today.

Topics & Concepts

GeologyEccentricity (behavior)Structural basinLibration (molecule)TectonicsOceanic basinShell (structure)OceanographyPaleontologyGeometryPolitical scienceLawComposite materialMaterials scienceMathematicsPoint (geometry)Astro and Planetary ScienceGeology and Paleoclimatology ResearchPlanetary Science and Exploration