Gravitational radiation from a particle with zero orbital angular momentum plunging into a Kerr black hole

Details Gravitational radiation from a particle with zero orbital angular momentum plunging into a Kerr black hole Gravitational radiation from a particle with zero orbital angular momentum plunging into a Kerr black hole

Jul 1983

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983phla...96..335k&link_type=abstract

Physics Letters A, Volume 96, Issue 7, p. 335-338.

Physics

23

Scientific paper

We have computed the energy ΔE, the momentum ΔP and the angular momentum ΔJ of gravitational radiation induced by a particle of mass μ and of zero orbital angular momentum plunging in the θ = π/2 plane into a Kerr black hole of mass M(>>μ) and angular momentum Ma. It is found that ΔE for a = 0.99M is 4.45 × 10-2 (μ2/M)c2, which is 4.27 times larger than that for the a = 0 case.

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