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Article Dans Une Revue The Planetary Science Journal Année : 2022

Challenges in Forming Phobos and Deimos Directly from a Splitting of an Ancestral Single Moon

Ryuki Hyodo
  • Fonction : Auteur
Hidenori Genda
  • Fonction : Auteur
Ryosuke Sekiguchi
  • Fonction : Auteur
Gustavo Madeira

Résumé

The origin and evolution of Martian moons have been intensively debated in recent years. It is proposed that Phobos and Deimos may originate directly from the splitting of an ancestral moon orbiting at around the Martian synchronous orbit. At this hypothetical splitting, the apocenter of the inner moon (presumed as Phobos) and the pericenter of the outer moon (presumed as Deimos) would coincide, in that, their semimajor axes would reside inside and outside the Martian synchronous orbit with nonzero eccentricities, respectively. However, the successive orbital evolution of the two moons is not studied. Here, we perform direct N-body orbital integrations of the moons, including the Martian oblateness of the J 2 and J 4 terms. We show that the two moons, while they precess, likely collide within ~104 yr with an impact velocity of v imp ~ 100-300 m s-1 (~10-30 times moons' escape velocity) and with an isotropic impact direction. The impact occurs around the apocenter and the pericenter of the inner and outer moons, respectively, where the timescale of this periodic orbital alignment is regulated by the precession. By performing additional impact simulations, we show that such a high-velocity impact likely results in a disruptive outcome, forming a debris ring at around the Martian synchronous orbit, from which several small moons would accrete. Such an evolutionary path would eventually form a different Martian moon system from the one we see today. Therefore, it seems unlikely that Phobos and Deimos are split directly from a single ancestral moon.
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insu-03776404 , version 1 (13-09-2022)

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Ryuki Hyodo, Hidenori Genda, Ryosuke Sekiguchi, Gustavo Madeira, Sébastien Charnoz. Challenges in Forming Phobos and Deimos Directly from a Splitting of an Ancestral Single Moon. The Planetary Science Journal, 2022, 3, ⟨10.3847/PSJ/ac88d2⟩. ⟨insu-03776404⟩
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