Black Hole Mergers in Galactic Nuclei Induced by the Eccentric Kozai-Lidov Effect

Hoang, B.M. and Naoz, S. and Kocsis, Bence and Rasio, F.A. and Dosopoulou, F. (2018) Black Hole Mergers in Galactic Nuclei Induced by the Eccentric Kozai-Lidov Effect. ASTROPHYSICAL JOURNAL, 856 (2). ISSN 1538-4357

Preview

Text 1706.09896.pdf Download (1MB) | Preview

Abstract

Nuclear star clusters around a central massive black hole (MBH) are expected to be abundant in stellar black hole (BH) remnants and BH-BH binaries. These binaries form a hierarchical triple system with the central MBH, and gravitational perturbations from the MBH can cause high-eccentricity excitation in the BH-BH binary orbit. During this process, the eccentricity may approach unity, and the pericenter distance may become sufficiently small so that gravitational-wave emission drives the BH-BH binary to merge. In this work, we construct a simple proof-of-concept model for this process, and specifically, we study the eccentric Kozai-Lidov mechanism in unequalmass, soft BH-BH binaries. Our model is based on a set of Monte Carlo simulations for BH-BH binaries in galactic nuclei, taking into account quadrupole-and octupole-level secular perturbations, general relativistic precession, and gravitational-wave emission. For a typical steady-state number of BH-BH binaries, our model predicts a total merger rate of similar to 1-3 Gpc(-3) yr(-1), depending on the assumed density profile in the nucleus. Thus, our mechanism could potentially compete with other dynamical formation processes for merging BH-BH binaries, such as the interactions of stellar BHs in globular clusters or in nuclear star clusters without an MBH.

Actions (login required)

Edit Item