Journal
ASTROPHYSICAL JOURNAL
Volume 702, Issue 2, Pages 890-900Publisher
IOP Publishing Ltd
DOI: 10.1088/0004-637X/702/2/890
Keywords
black hole physics; galaxies: halos; galaxies: kinematics and dynamics; methods: numerical
Categories
Funding
- NASA [NNX09AJ34G]
- NSF
- William L. Loughlin Fellowship
- NASA [114576, NNX09AJ34G] Funding Source: Federal RePORTER
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The coalescence of a massive black hole (MBH) binary leads to the gravitational-wave recoil of the system and its ejection from the galaxy core. We have carried out N-body simulations of the motion of a M-BH = 3.7 x 10(6) M-circle dot MBH remnant in the Via Lactea I simulation, a Milky Way-sized dark matter halo. The black hole receives a recoil velocity of V-kick = 80, 120, 200, 300, and 400 km s(-1) at redshift 1.5, and its orbit is followed for over 1 Gyr within a live host halo, subject only to gravity and dynamical friction against the dark matter background. We show that, owing to asphericities in the dark matter potential, the orbit of the MBH is highly nonradial, resulting in a significantly increased decay timescale compared to a spherical halo. The simulations are used to construct a semi-analytic model of the motion of the MBH in a time-varying triaxial Navarro-Frenk-White dark matter halo plus a spherical stellar bulge, where the dynamical friction force is calculated directly from the velocity dispersion tensor. Such a model should offer a realistic picture of the dynamics of kicked MBHs in situations where gas drag, friction by disk stars, and the flattening of the central cusp by the returning black hole are all negligible effects. We find that MBHs ejected with initial recoil velocities V-kick greater than or similar to 500 km s(-1) do not return to the host center within a Hubble time. In a Milky Way-sized galaxy, a recoiling hole carrying a gaseous disk of initial mass similar to M-BH may shine as a quasar for a substantial fraction of its wandering phase. The long decay timescales of kicked MBHs predicted by this study may thus be favorable to the detection of off-nuclear quasar activity.
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