The Astrophysical Journal (Jan 2023)

Solar Evolution Models with a Central Black Hole

  • Earl P. Bellinger,
  • Matt E. Caplan,
  • Taeho Ryu,
  • Deepika Bollimpalli,
  • Warrick H. Ball,
  • Florian Kühnel,
  • R. Farmer,
  • S. E. de Mink,
  • Jørgen Christensen-Dalsgaard

DOI
https://doi.org/10.3847/1538-4357/ad04de
Journal volume & issue
Vol. 959, no. 2
p. 113

Abstract

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Hawking proposed that the Sun may harbor a primordial black hole (BH) whose accretion supplies some of the solar luminosity. Such an object would have formed within the first 1 s after the Big Bang with the mass of a moon or an asteroid. These light BHs are a candidate solution to the dark matter problem, and could grow to become stellar-mass BHs if captured by stars. Here we compute the evolution of stars having such a BH at their center. We find that such objects can be surprisingly long-lived, with the lightest BHs having no influence over stellar evolution, while more massive ones consume the star over time to produce a range of observable consequences. Models of the Sun born about a BH whose mass has since grown to approximately 10 ^−6 M _⊙ are compatible with current observations. In this scenario, the Sun would first dim to half its current luminosity over a span of 100 Myr as the accretion starts to generate enough energy to quench nuclear reactions. The Sun would then expand into a fully convective star, where it would shine luminously for potentially several gigayears with an enriched surface helium abundance, first as a sub-subgiant star, and later as a red straggler, before becoming a subsolar-mass BH. We also present results for a range of stellar masses and metallicities. The unique internal structures of stars harboring BHs may make it possible for asteroseismology to discover them, should they exist. We conclude with a list of open problems and predictions.

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