English

Aligning Nuclear Cluster Orbits with an Active Galactic Nucleus Accretion Disk

Astrophysics of Galaxies 2020-11-02 v2 High Energy Astrophysical Phenomena

Abstract

Active galactic nuclei (AGN) are powered by the accretion of disks of gas onto supermassive black holes (SMBHs). Stars and stellar remnants orbiting the SMBH in the nuclear star cluster (NSC) will interact with the AGN disk. Orbiters plunging through the disk experience a drag force and, through repeated passage, can have their orbits captured by the disk. A population of embedded objects in AGN disks may be a significant source of binary black hole mergers, supernovae, tidal disruption events and embedded gamma-ray bursts. For two representative AGN disk models we use geometric drag and Bondi-Hoyle-Littleton drag to determine the time to capture for stars and stellar remnants. We assume a range of initial inclination angles and semi-major axes for circular Keplerian prograde orbiters. Capture time strongly depends on the density and aspect ratio of the chosen disk model, the relative velocity of the stellar object with respect to the disk, and the AGN lifetime. We expect that for an AGN disk density ρ1011g/cm3\rho \gtrsim 10^{-11}\rm g/cm^3 and disk lifetime 1\geq 1Myr, there is a significant population of embedded stellar objects, which can fuel mergers detectable in gravitational waves with LIGO-Virgo and LISA.

Keywords

Cite

@article{arxiv.2006.11229,
  title  = {Aligning Nuclear Cluster Orbits with an Active Galactic Nucleus Accretion Disk},
  author = {Gaia Fabj and Syeda S. Nasim and Freddy Caban and K. E. Saavik Ford and Barry McKernan and Jillian M. Bellovary},
  journal= {arXiv preprint arXiv:2006.11229},
  year   = {2020}
}

Comments

Submitted to MNRAS; 10 pages, 6 figures

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