Effect of gravitational radiation reaction on circular orbits around a spinning black hole
Abstract
The effect of gravitational radiation reaction on circular orbits around a spinning (Kerr) black hole is computed to leading order in S (the magnitude of the spin angular momentum of the hole) and in the strength of gravity M/r (where M is the mass of the black hole, r is the orbital radius, and G=c=1). The radiation reaction makes the orbit shrink but leaves it circular, and drives the orbital plane very slowly toward antialignment with the spin of the hole: ( /2) = (0 /2) [1+(61/72)(S/M2) (M/r)3/2], where is the angle between the normal to the orbital plane and the spin direction, and 0 is the initial value of , when r is very large.
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