期刊
MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY
卷 516, 期 2, 页码 2204-2217出版社
OXFORD UNIV PRESS
DOI: 10.1093/mnras/stac2316
关键词
black hole physics; gravitation; gravitational wave; hydrodynamics
资金
- NSF [AST-2006839]
This study uses 3D hydrodynamics simulations to explore close interactions between stars and binary black holes. The results show that tidal disruption events have a significant impact on the binary orbit and the accretion rates of the black holes are highly super-Eddington, with modulations on the orbital period time-scale.
Many astrophysical environments, from star clusters and globular clusters to the discs of active galactic nuclei, are characterized by frequent interactions between stars and the compact objects that they leave behind. Here, using a suite of 3D hydrodynamics simulations, we explore the outcome of close interactions between 1 M-circle dot stars and binary black holes (BBHs) in the gravitational wave regime, resulting in a tidal disruption event (TDE) or a pure scattering, focusing on the accretion rates, the back reaction on the BH binary orbital parameters, and the increase in the binary BH effective spin. We find that TDEs can make a significant impact on the binary orbit, which is often different from that of a pure scattering. Binaries experiencing a prograde (retrograde) TDE tend to be widened (hardened) by up to similar or equal to 20 per cent. Initially circular binaries become more eccentric by less than or similar to 10 per cent by a prograde or retrograde TDE, whereas the eccentricity of initially eccentric binaries increases (decreases) by a retrograde (prograde) TDE by less than or similar to 5 per cent. Overall, a single TDE can generally result in changes of the gravitational-wave-driven merger time-scale by order unity. The accretion rates of both black holes are very highly super-Eddington, showing modulations (preferentially for retrograde TDEs) on a time-scale of the orbital period, which can be a characteristic feature of BBH-driven TDEs. Prograde TDEs result in the effective spin parameter chi to vary by less than or similar to 0.02, while chi greater than or similar to -0.005 for retrograde TDEs.
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