Uncovering Hidden Massive Black Hole Companions with Tidal Disruption Events (2306.05510v2)

Abstract: Dynamical perturbations from supermassive black hole (SMBH) binaries can increase the rates of tidal disruption events (TDEs). However, most previous work focuses on TDEs from the heavy black hole in the SMBH binary (SMBHB) system. In this work, we focus on the lighter black holes in SMBHB systems and show that they can experience a similarly dramatic increase in their TDE rate due to perturbations from a more massive companion. While the increase in TDEs around the more massive black hole is mostly due to chaotic orbital perturbations, we find that, around the smaller black hole, the eccentric Kozai-Lidov (EKL) mechanism is dominant and capable of producing a comparably large number of TDEs. In this instance, the mass derived from the light curve and spectra of TDEs triggered by the lighter SMBH companion are expected to be significant smaller than the SMBH mass estimated from galaxy scaling relations, which are dominated by the more massive companion. This apparent inconsistency can help find SMBHB candidates that are not currently accreting as active galactic nuclei (AGN) and that are at separations too small to be resolved as two distinct sources. TDEs thus provide us with an exciting opportunity to study SMBHB, in particular when they might be detected from galaxies hosting SMBHs that are too massive to disrupt sun-like stars.