Gravitational Radiation from a Particle Falling Radially into a Schwarzschild Black Hole

Details Gravitational Radiation from a Particle Falling Radially into a Schwarzschild Black Hole Gravitational Radiation from a Particle Falling Radially into a Schwarzschild Black Hole

Nov 1971

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1971phrvl..27.1466d&link_type=abstract

Physical Review Letters, vol. 27, Issue 21, pp. 1466-1469

Physics

182

Scientific paper

We have computed the spectrum and energy of gravitational radiation from a "point test particle" of mass m falling radially into a Schwarzschild black hole of mass M>>m. The total energy radiated is about 0.0104mc2(mM), 4 to 6 times larger than previous estimates; the energy is distributed among multipoles according to the empirical law E2l-pole~(0.44m2c2M)e-2l and the total spectrum peaks at an angular frequency ω=0.32c3GM.

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