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AGN as potential factories for eccentric black hole mergers

J. Samsing (), I. Bartos, D. J. D’Orazio, Z. Haiman, B. Kocsis, N. W. C. Leigh, B. Liu, M. E. Pessah and H. Tagawa
Additional contact information
J. Samsing: Niels Bohr Institute
I. Bartos: University of Florida
D. J. D’Orazio: Niels Bohr Institute
Z. Haiman: Columbia University
B. Kocsis: Rudolf Peierls Centre for Theoretical Physics, Clarendon Laboratory
N. W. C. Leigh: Universidad de Concepción
B. Liu: Niels Bohr Institute
M. E. Pessah: Niels Bohr Institute
H. Tagawa: Tohoku University

Nature, 2022, vol. 603, issue 7900, 237-240

Abstract: Abstract There is some weak evidence that the black hole merger named GW190521 had a non-zero eccentricity1,2. In addition, the masses of the component black holes exceeded the limit predicted by stellar evolution3. The large masses can be explained by successive mergers4,5, which may be efficient in gas disks surrounding active galactic nuclei, but it is difficult to maintain an eccentric orbit all the way to the merger, as basic physics would argue for circularization6. Here we show that active galactic nuclei disk environments can lead to an excess of eccentric mergers, if the interactions between single and binary black holes are frequent5 and occur with mutual inclinations of less than a few degrees. We further illustrate that this eccentric population has a different distribution of the inclination between the spin vectors of the black holes and their orbital angular momentum at merger7, referred to as the spin–orbit tilt, compared with the remaining circular mergers.

Date: 2022
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DOI: 10.1038/s41586-021-04333-1

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