Kyle Kremer, Carl L. Rodriguez, Pau Amaro-Seoane, Katelyn Breivik, Sourav Chatterjee, Michael L. Katz, Shane L. Larson, Frederic A. Rasio, Johan Samsing, Claire S. Ye, Michael Zevin
Published 2018-11-28Version 1
The dynamical processing of black holes in the dense cores of globular clusters (GCs), makes them efficient factories for producing binary black holes (BBHs). Here we explore the population of BBHs that form dynamically in GCs and may be observable at mHz frequencies or higher with LISA. We use our Monte Carlo stellar dynamics code, which includes gravitational radiation reaction effects for all BH encounters. By creating a representative local universe of GCs, we show that up to dozens of these systems may be resolvable by LISA with signal-to-noise ratios of at least 5. Approximately one third of these binaries will have measurable eccentricities ($e > 10^{-3}$) in the LISA band and a small number ($\lesssim 5$) may evolve from the LISA band to the LIGO band during the LISA mission.
Comments: Submitted to PRD. Comments welcome
Inferring the population properties of binary black holes from unresolved gravitational waves
Dropping Anchor: Understanding the Populations of Binary Black Holes with Random and Aligned Spin Orientations
Rapster: a fast code for dynamical formation of black-hole binaries in dense star clusters
![QR code for arXiv:1811.11812 [astro-ph.HE]](http://oss.arxitics.com/images/favicon.svg)