On formation rate of close binaries consisting of a super-massive black hole and a white dwarf

Abstract

The formation rate of a close binary consisting of a super-massive black hole and a compact object (presumably a white dwarf) in galactic cusps is calculated with help of the so-called loss cone approximation. For a power low cusp of radius ra, the black hole mass M 106M, this rate Nwd 4· 10-5K(pGM ra3≈ 3· 10-9K(p)(M 106M)1/2(ra 1pc)-3/2yr-1. The function K(p) depends on parameter p determining the cusp profile, and for the standard cusp profiles with p=1/4 K(p) 2. We estimate the probability Pr of finding of a compact object orbiting around a black hole with period P in one particular galaxy to be Pr 10-7(P/103s M/106M)8/3 (M/106M ra/ 1pc)3/2. The object with the period P 103 s emits gravitational waves with amplitude sufficient to be detected by LISA type gravitational wave anatenna from the distance 103Mpc. Based on estimates of masses of super-massive black holes in nearby galaxies, we speculate that LISA would detect several such events during its mission.

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