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The internal structure of Eris inferred from its spin and orbit evolution

F. Nimmo, Michael E. Brown

2023Science Advances13 citationsDOIOpen Access PDF

Abstract

The large Kuiper Belt object Eris is tidally locked to its small companion Dysnomia. Recently obtained bounds on the mass of Dysnomia demonstrate that Eris must be unexpectedly dissipative for it to have despun over the age of the solar system. Here, we show that Eris must have differentiated into an ice shell and rocky core to explain the dissipation. We further demonstrate that Eris's ice shell must be convecting to be sufficiently dissipative, which distinguishes it from Pluto's conductive shell. The difference is likely due to Eris's apparent depletion in volatiles compared with Pluto, perhaps as the result of a more energetic impact.

Topics & Concepts

PlutoDissipative systemPhysicsShell (structure)AstrobiologyOrbit (dynamics)Solar SystemAstronomyGeologyAerospace engineeringMaterials scienceComposite materialEngineeringQuantum mechanicsAstro and Planetary SciencePlanetary Science and ExplorationStellar, planetary, and galactic studies
The internal structure of Eris inferred from its spin and orbit evolution | Litcius