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On the Origin and Dynamical Evolution of Jupiter’s Moon Amalthea

Ian R. Brunton, Konstantin Batygin

2025The Astrophysical Journal7 citationsDOIOpen Access PDF

Abstract

Abstract Interior to the orbits of Jupiter’s iconic Galilean moons are four small satellites with individual mean radii R ≲ 84 km. Multiple lines of evidence suggest that these bodies formed at a more distant location in Jupiter’s circumplanetary disk before coming to reside at their current short-period orbits. However, how these moons dynamically evolved to such a location has yet to be explained in the emerging paradigm of Jovian satellite formation. Here, we present a quantitative model for the origin of the largest of these inner moons, Amalthea, that can be extended to its neighbor, Thebe, and to other small bodies in astrophysical disks. We propose that Amalthea’s anomalous features are due to it having formed alongside the Galileans in a reservoir of satellitesimals located at a large Jovian-centric distance. As the innermost Galilean, Io, migrated inward from this reservoir, it captured the satellitesimal Amalthea into resonance and shepherded the small body to its modern neighborhood. During this migration through the disk, dissipative forcing from aerodynamic drag induces overstable librations in the Io–Amalthea resonance, such that only a narrow range of nebular parameters can accommodate the requisite long-range transport. In particular, the disk aspect ratio, h / r , emerges as the key variable. Our calculations indicate that the circumjovian disk had a scale height of h / r ≳ 0.08, implying a relatively hot, actively accreting disk during the epoch of satellite formation. These results thus shed light on the evolution of the Jovian system, along with the more general phenomenon of satellite–disk interactions.

Topics & Concepts

JovianPhysicsGalilean moonsJupiter (rocket family)AstronomyAstrophysicsPlutoDissipative systemGas giantPlanetNatural satelliteProtoplanetCelestial mechanicsSatelliteEpoch (astronomy)Libration (molecule)Range (aeronautics)Orbit (dynamics)Solar SystemScale (ratio)Planetary systemAmplitudeDragTidal heatingParameter spaceAstrobiologyAstro and Planetary ScienceAstrophysics and Star Formation StudiesStellar, planetary, and galactic studies
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