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Gravitational waves from a spinning particle in circular orbits around a rotating black hole

Takahiro TanakaDepartment of Earth and Space Science, Osaka University, Toyonaka 560, JapanYasushi MinoDepartment of Earth and Space Science, Osaka University, Toyonaka 560, JapanMisao SasakiDepartment of Earth and Space Science, Osaka University, Toyonaka 560, JapanMasaru ShibataDepartment of Earth and Space Science, Osaka University, Toyonaka 560, Japan
1996en
ABI

Abstract

Using the Teukolsky and Sasaki-Nakamura formalisms for the perturbations around a Kerr black hole, we calculate the energy flux of gravitational waves induced by a spinning particle of mass $\ensuremath{\mu}$ and spin $S$ moving in circular orbits near the equatorial plain of a rotating black hole of mass $M(\ensuremath{\gg}\ensuremath{\mu})$ and spin $\mathrm{Ma}$. The calculations are performed by using the recently developed post-Newtonian expansion technique of the Teukolsky equation. To evaluate the source terms of perturbations caused by a spinning particle, we use the equations of motion of a spinning particle derived by Papapetrou and the energy-momentum tensor of a spinning particle derived by Dixon. We present the post-Newtonian formula of the gravitational wave luminosity up to the order ${(\frac{v}{c})}^{5}$ beyond the quadrupole formula including the linear order of particle spin. The results obtained in this paper will be an important guideline to the post-Newtonian calculation of the inspiral of two spinning compact objects.

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