Identifying heavy stellar black holes at cosmological distances with next generation gravitational-wave observatories

Abstract

We investigate the detectability of single-event coalescing black hole binaries with total mass of 100-600 M at cosmological distances (5 z 20) with the next generation of terrestrial gravitational wave observatories, specifically Einstein Telescope and Cosmic Explorer. Our ability to observe these binaries is limited by the low-frequency performance of the detectors. Higher-order Multipoles of the gravitational wave signal are observable in these systems, and detection of such multipoles serves to both b the mass range over which black hole binaries are observable and improve the recovery of their individual masses and redshift. For high redshift systems of 200 M we will be able to confidently infer that the redshift is at least z=12, and for systems of 400 M we can infer a minimum redshift of at least z=8. We discuss the impact that these observations will have in narrowing uncertainties on the existence of the pair-instability mass-gap, and their implications on the formation of the first stellar black holes that could be seeds for the growth of supermassive black holes powering high-z quasars.

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