The Astrophysical Journal Letters (Jan 2025)

Disk Draining in LIGO Progenitor Black Hole Binaries and Its Significance to Electromagnetic Counterparts

  • Xiaoshan Huang,
  • Sierra Dodd,
  • Sophie Lund Schrøder,
  • Shane W. Davis,
  • Enrico Ramirez-Ruiz

DOI
https://doi.org/10.3847/2041-8213/adbb62
Journal volume & issue
Vol. 982, no. 1
p. L11

Abstract

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The effect of tidal forces on transport within a relic accretion disk in binary black holes is studied here with a suite of two-dimensional hydrodynamic simulations. As the binary contracts owing to the emission of gravitational waves, the accretion disk is truncated, and a two-armed spiral wave is excited, which remains stationary in the rotating reference frame of the coalescing binary. Such spiral waves lead to increased transport of mass and angular momentum. Our findings suggest that even in the case of weakly ionized accretion disks spiral density waves will drain the disk long before the orbit of the two black holes decays enough for them to merge, thus dimming prospects for a detectable electromagnetic counterpart.

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