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Weighing in on black hole binaries with bpass: LB-1 does not contain a 70 M⊙ black hole

J. J. Eldridge, E. R. Stanway, Katelyn Breivik, Andrew R. Casey, D. Steeghs, H. F. Stevance

2020Monthly Notices of the Royal Astronomical Society48 citationsDOIOpen Access PDF

Abstract

ABSTRACT The recent identification of a candidate very massive (70 M⊙) black hole (BH) is at odds with our current understanding of stellar winds and pair-instability supernovae. We investigate alternate explanations for this system by searching the bpass v2.2 stellar and population synthesis models for those that match the observed properties of the system. We find binary evolution models that match the LB-1 system, at the reported Gaia distance, with more moderate BH masses of 4–7 M⊙. We also examine the suggestion that the binary motion may have led to an incorrect distance determination by Gaia. We find that the Gaia distance is accurate and that the binary system is consistent with the observation at this distance. Consequently, it is highly improbable that the BH in this system has the extreme mass originally suggested. Instead, it is more likely to be representative of the typical BH binary population expected in our Galaxy.

Topics & Concepts

PhysicsAstrophysicsBlack hole (networking)Binary black holeGalaxySupernovaBinary numberIntermediate-mass black holeAstronomyStellar black holePopulationBinary systemGravitational waveRouting (electronic design automation)Routing protocolArithmeticLink-state routing protocolSociologyComputer scienceMathematicsDemographyComputer networkGamma-ray bursts and supernovaeStellar, planetary, and galactic studiesPulsars and Gravitational Waves Research
Weighing in on black hole binaries with bpass: LB-1 does not contain a 70 M⊙ black hole | Litcius