On the rate of black hole binary mergers in galactic nuclei due to dynamical hardening
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On the rate of black hole binary mergers in galactic nuclei due to dynamical hardening. / Leigh, N. W.C.; Geller, A. M.; McKernan, B.; Ford, K. E.S.; Low, M. M.Mac; Bellovary, J.; Haiman, Z.; Lyra, W.; Samsing, J.; O'Dowd, M.; Kocsis, B.; Endlich, S.
I: Monthly Notices of the Royal Astronomical Society, Bind 474, Nr. 4, 01.03.2018, s. 5672-5683.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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TY - JOUR
T1 - On the rate of black hole binary mergers in galactic nuclei due to dynamical hardening
AU - Leigh, N. W.C.
AU - Geller, A. M.
AU - McKernan, B.
AU - Ford, K. E.S.
AU - Low, M. M.Mac
AU - Bellovary, J.
AU - Haiman, Z.
AU - Lyra, W.
AU - Samsing, J.
AU - O'Dowd, M.
AU - Kocsis, B.
AU - Endlich, S.
PY - 2018/3/1
Y1 - 2018/3/1
N2 - We assess the contribution of dynamical hardening by direct three-body scattering interactions to the rate of stellar-mass black hole binary (BHB) mergers in galactic nuclei. We derive an analytic model for the single-binary encounter rate in a nucleus with spherical and disc components hosting a super-massive black hole (SMBH). We determine the total number of encounters NGW needed to harden a BHB to the point that inspiral due to gravitational wave emission occurs before the next three-body scattering event. This is done independently for both the spherical and disc components. Using a Monte Carlo approach, we refine our calculations for NGW to include gravitational wave emission between scattering events. For astrophysically plausible models, we find that typically NGW ≲ 10. We find two separate regimes for the efficient dynamical hardening of BHBs: (1) spherical star clusters with high central densities, low-velocity dispersions, and no significant Keplerian component and (2) migration traps in discs around SMBHs lacking any significant spherical stellar component in the vicinity of the migration trap, which is expected due to effective orbital inclination reduction of any spherical population by the disc. We also find a weak correlation between the ratio of the second-order velocity moment to velocity dispersion in galactic nuclei and the rate of BHB mergers, where this ratio is a proxy for the ratio between the rotation- and dispersion-supported components. Because discs enforce planar interactions that are efficient in hardening BHBs, particularly in migration traps, they have high merger rates that can contribute significantly to the rate of BHBmergers detected by the advanced Laser Interferometer Gravitational-Wave Observatory.
AB - We assess the contribution of dynamical hardening by direct three-body scattering interactions to the rate of stellar-mass black hole binary (BHB) mergers in galactic nuclei. We derive an analytic model for the single-binary encounter rate in a nucleus with spherical and disc components hosting a super-massive black hole (SMBH). We determine the total number of encounters NGW needed to harden a BHB to the point that inspiral due to gravitational wave emission occurs before the next three-body scattering event. This is done independently for both the spherical and disc components. Using a Monte Carlo approach, we refine our calculations for NGW to include gravitational wave emission between scattering events. For astrophysically plausible models, we find that typically NGW ≲ 10. We find two separate regimes for the efficient dynamical hardening of BHBs: (1) spherical star clusters with high central densities, low-velocity dispersions, and no significant Keplerian component and (2) migration traps in discs around SMBHs lacking any significant spherical stellar component in the vicinity of the migration trap, which is expected due to effective orbital inclination reduction of any spherical population by the disc. We also find a weak correlation between the ratio of the second-order velocity moment to velocity dispersion in galactic nuclei and the rate of BHB mergers, where this ratio is a proxy for the ratio between the rotation- and dispersion-supported components. Because discs enforce planar interactions that are efficient in hardening BHBs, particularly in migration traps, they have high merger rates that can contribute significantly to the rate of BHBmergers detected by the advanced Laser Interferometer Gravitational-Wave Observatory.
KW - Binaries: general
KW - Black hole physics
KW - Galaxies: active
KW - Galaxies: nuclei
KW - Gravitational waves
KW - Scattering
UR - http://www.scopus.com/inward/record.url?scp=85045994456&partnerID=8YFLogxK
U2 - 10.1093/MNRAS/STX3134
DO - 10.1093/MNRAS/STX3134
M3 - Journal article
AN - SCOPUS:85045994456
VL - 474
SP - 5672
EP - 5683
JO - Royal Astronomical Society. Monthly Notices
JF - Royal Astronomical Society. Monthly Notices
SN - 0035-8711
IS - 4
ER -
ID: 236271565