Extreme Tidal Stripping May Explain the Overmassive Black Hole in Leo I: A Proof of Concept

  • Pacucci F
  • Ni Y
  • Loeb A
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Abstract

A recent study found dynamical evidence of a supermassive black hole of ∼3 × 10 6 M ⊙ at the center of Leo I, the most distant dwarf spheroidal galaxy of the Milky Way. This black hole, comparable in mass to the Milky Way’s Sgr A*, places the system >2 orders of magnitude above the standard M • – M ⋆ relation. We investigate the possibility, from a dynamical standpoint, that Leo I’s stellar system was originally much more massive and, thus, closer to the relation. Extreme tidal disruption from one or two close passages within the Milky Way’s virial radius could have removed most of its stellar mass. A simple analytical model suggests that the progenitor of Leo I could have experienced a mass loss in the range 32%–57% from a single pericenter passage, depending on the stellar velocity dispersion estimate. This mass-loss percentage increases to the range 66%–78% if the pericenter occurs at the minimum distance allowed by current orbital reconstructions. Detailed N -body simulations show that the mass loss could reach ∼90% with up to two passages, again with pericenter distances compatible with the minimum value allowed by Gaia data. Despite very significant uncertainties in the properties of Leo I, we reproduce its current position and velocity dispersion, as well as the final stellar mass enclosed in 1 kpc (∼5 × 10 6 M ⊙ ) within a factor <2. The most recent tidal stream is directed along our line of sight toward Leo I, making it difficult to detect. Evidence from this extreme tidal disruption event could be present in current Gaia data in the form of extended tidal streams.

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Pacucci, F., Ni, Y., & Loeb, A. (2023). Extreme Tidal Stripping May Explain the Overmassive Black Hole in Leo I: A Proof of Concept. The Astrophysical Journal Letters, 956(2), L37. https://doi.org/10.3847/2041-8213/acff5e

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