Litcius/Paper detail

Shouts and Murmurs: Combining Individual Gravitational-wave Sources with the Stochastic Background to Measure the History of Binary Black Hole Mergers

Tom Callister, Maya Fishbach, Daniel E. Holz, Will M. Farr

2020The Astrophysical Journal Letters95 citationsDOIOpen Access PDF

Abstract

Abstract One of the goals of gravitational-wave astronomy is to quantify the evolution of the compact binary merger rate with redshift. The redshift distribution of black hole mergers would offer considerable information about their evolutionary history, including their progenitor formation rate, the dependence of black hole formation on stellar metallicity, and the time delay distribution between formation and merger. Efforts to measure the binary redshift distribution are currently limited, however, by the detection range of existing instruments, which can individually resolve compact binary merger events only out to . We present a novel strategy with which to measure the redshift distribution of binary black hole mergers well beyond the detection range of current instruments. By synthesizing direct detections of individually resolved mergers with indirect searches for the stochastic gravitational-wave background due to unresolved distant sources, we can glean information about the peak redshift, z p , at which the binary black hole merger rate attains its maximum, even when this redshift is beyond the detection horizon. Using data from Advanced LIGO and Virgo’s first and second observing runs, we employ this strategy to place joint constraints on z p and the slope α with which the binary merger rate increases at low redshifts, ruling out merger rates that grow faster than and peak beyond . Looking ahead, we project that approximately one year of observation with design-sensitivity Advanced LIGO will further break remaining degeneracies, enabling a direct measurement of the peak redshift of the binary black hole merger history.

Topics & Concepts

Binary black holeRedshiftLIGOPhysicsBinary numberAstrophysicsBlack hole (networking)Measure (data warehouse)Gravitational waveRange (aeronautics)Distribution (mathematics)AstronomyStellar black holeBinary starStatistical physicsStochastic processBinary dataCosmologyBinary search algorithmPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeAstrophysical Phenomena and Observations