Direct N-body Simulations of Satellite Formation around Small Asteroids: Insights from DART’s Encounter with the Didymos System - Archive ouverte HAL
Article Dans Une Revue The Planetary Science Journal Année : 2024

Direct N-body Simulations of Satellite Formation around Small Asteroids: Insights from DART’s Encounter with the Didymos System

Yun Zhang
Petr Pravec
Matija Ćuk
Patrick Michel
Seth A Jacobson
Daniel J Scheeres
Kevin Walsh
Eric Palmer
Maurizio Pajola
Alice Lucchetti
  • Fonction : Auteur
Filippo Tusberti
  • Fonction : Auteur
Joseph V Demartini
Fabio Ferrari
Alex J Meyer
Sabina D Raducan
Paul Sánchez

Résumé

We explore binary asteroid formation by spin-up and rotational disruption considering the NASA DART mission's encounter with the Didymos–Dimorphos binary, which was the first small binary visited by a spacecraft. Using a suite of N -body simulations, we follow the gravitational accumulation of a satellite from meter-sized particles following a mass-shedding event from a rapidly rotating primary. The satellite’s formation is chaotic, as it undergoes a series of collisions, mergers, and close gravitational encounters with other moonlets, leading to a wide range of outcomes in terms of the satellite's mass, shape, orbit, and rotation state. We find that a Dimorphos-like satellite can form rapidly, in a matter of days, following a realistic mass-shedding event in which only ∼2%–3% of the primary's mass is shed. Satellites can form in synchronous rotation due to their formation near the Roche limit. There is a strong preference for forming prolate (elongated) satellites, although some simulations result in oblate spheroids like Dimorphos. The distribution of simulated secondary shapes is broadly consistent with other binary systems measured through radar or lightcurves. Unless Dimorphos's shape is an outlier, and considering the observational bias against lightcurve-based determination of secondary elongations for oblate bodies, we suggest there could be a significant population of oblate secondaries. If these satellites initially form with elongated shapes, a yet-unidentified pathway is needed to explain how they become oblate. Finally, we show that this chaotic formation pathway occasionally forms asteroid pairs and stable triples, including coorbital satellites and satellites in mean-motion resonances.
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Dates et versions

hal-04668499 , version 1 (06-08-2024)

Identifiants

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Harrison F Agrusa, Yun Zhang, Derek C Richardson, Petr Pravec, Matija Ćuk, et al.. Direct N-body Simulations of Satellite Formation around Small Asteroids: Insights from DART’s Encounter with the Didymos System. The Planetary Science Journal, 2024, 5 (2), pp.54. ⟨10.3847/psj/ad206b⟩. ⟨hal-04668499⟩
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