Benjamin C. Bromley, Scott J. Kenyon, Margaret J. Geller, Warren R. Brown
Published 2012-03-29Version 1
We examine whether disrupted binary stars can fuel black hole growth. In this mechanism, tidal disruption produces a single hypervelocity star (HVS) ejected at high velocity and a former companion star bound to the black hole. After a cluster of bound stars forms, orbital diffusion allows the black hole to accrete stars by tidal disruption at a rate comparable to the capture rate. In the Milky Way, HVSs and the S star cluster imply similar rates of 10^{-5}--10^{-3} yr^{-1} for binary disruption. These rates are consistent with estimates for the tidal disruption rate in nearby galaxies and imply significant black hole growth from disrupted binaries on 10 Gyr time scales.
Comments: ApJ Letters, accepted; 13 pages, including 3 figures
The Active Fraction of Massive Black Holes in Dwarf Galaxies
Exploring Low-Mass Black Holes through Tidal Disruption Events in the Early Universe: Perspectives in the Era of JWST, RST, and LSST Surveys
Hypervelocity Planets and Transits Around Hypervelocity Stars
![QR code for arXiv:1203.6685 [astro-ph.GA]](http://oss.arxitics.com/images/favicon.svg)