Can stellar-mass black hole growth disrupt disks of active galactic nuclei? The role of mechanical feedback
Tagawa H, Kimura SS, Haiman Z, Perna R, Tanaka H, Bartos I. 2022. Can stellar-mass black hole growth disrupt disks of active galactic nuclei? The role of mechanical feedback. The Astrophysical Journal. 927(1), 41.
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https://doi.org/10.3847/1538-4357/ac45f8
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Journal Article
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Author
Tagawa, Hiromichi;
Kimura, Shigeo S.;
Haiman, ZoltánISTA;
Perna, Rosalba;
Tanaka, Hidekazu;
Bartos, Imre
Abstract
Stellar-mass BHs (sBHs) are predicted to be embedded in active galactic nuclei (AGN) disks due to gravitational drag and in-situ star formation. However, we find that due to a high gas density in an AGN disk environment, compact objects may rapidly grow to intermediate-mass BHs and deplete matter from the AGN disk unless accretion is suppressed by some feedback process(es). These consequences are inconsistent with AGN observations and the dynamics of the Galactic center. Here we consider mechanical feedback mechanisms for the reduction of gas accretion. Rapidly accreting sBHs launch winds and/or jets via the Blandford-Znajek mechanism, which produce high-pressure shocks and cocoons. Such a shock and cocoon can spread laterally in the plane of the disk, eject the outer regions of a circum-sBH disk (CsBD) and puncture a hole in the AGN disk with horizontal size comparable to the disk scale-height. Since the depletion timescale of the bound CsBD is much shorter than the resupply timescale of gas to the sBH, the time-averaged accretion rate onto sBHs is reduced by this process by a factor of ∼10--100. This feedback mechanism can therefore help alleviate the sBH over-growth and AGN-disk depletion problems. On the other hand, we find that cocoons of jets can unbind a large fraction of the gas accreting in the disks of less massive SMBHs, which may help explain the dearth of high-Eddington ratio AGNs with SMBH mass ≲105M⊙.
Publishing Year
Date Published
2022-03-03
Journal Title
The Astrophysical Journal
Publisher
American Astronomical Society
Volume
927
Issue
1
Article Number
41
IST-REx-ID
Cite this
Tagawa H, Kimura SS, Haiman Z, Perna R, Tanaka H, Bartos I. Can stellar-mass black hole growth disrupt disks of active galactic nuclei? The role of mechanical feedback. The Astrophysical Journal. 2022;927(1). doi:10.3847/1538-4357/ac45f8
Tagawa, H., Kimura, S. S., Haiman, Z., Perna, R., Tanaka, H., & Bartos, I. (2022). Can stellar-mass black hole growth disrupt disks of active galactic nuclei? The role of mechanical feedback. The Astrophysical Journal. American Astronomical Society. https://doi.org/10.3847/1538-4357/ac45f8
Tagawa, Hiromichi, Shigeo S. Kimura, Zoltán Haiman, Rosalba Perna, Hidekazu Tanaka, and Imre Bartos. “Can Stellar-Mass Black Hole Growth Disrupt Disks of Active Galactic Nuclei? The Role of Mechanical Feedback.” The Astrophysical Journal. American Astronomical Society, 2022. https://doi.org/10.3847/1538-4357/ac45f8.
H. Tagawa, S. S. Kimura, Z. Haiman, R. Perna, H. Tanaka, and I. Bartos, “Can stellar-mass black hole growth disrupt disks of active galactic nuclei? The role of mechanical feedback,” The Astrophysical Journal, vol. 927, no. 1. American Astronomical Society, 2022.
Tagawa H, Kimura SS, Haiman Z, Perna R, Tanaka H, Bartos I. 2022. Can stellar-mass black hole growth disrupt disks of active galactic nuclei? The role of mechanical feedback. The Astrophysical Journal. 927(1), 41.
Tagawa, Hiromichi, et al. “Can Stellar-Mass Black Hole Growth Disrupt Disks of Active Galactic Nuclei? The Role of Mechanical Feedback.” The Astrophysical Journal, vol. 927, no. 1, 41, American Astronomical Society, 2022, doi:10.3847/1538-4357/ac45f8.
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