HEAD-ON COLLISIONS OF BLACK-HOLES - THE PARTICLE LIMIT

We compute gravitational radiation waveforms, spectra, and energies fo r a point particle of mass m(0) falling from rest at radius r(0) into a Schwarzschild hole of mass M. This radiation is found to lowest orde r in (m(0)/M) with the use of a Laplace transform. In contrast with nu merical relativity results for head-on collisions of equal-mass holes, the radiated energy is found not to be a monotonically increasing fun ction of initial separation; there is a local radiated-energy maximum at r(0) approximate to 4.5M. The present results, along with results f or infall from infinity, provide a complete catalog of waveforms and s pectra for particle infall. We give a representative sample from that catalog and an interesting observation: Unlike the simple spectra for other head-on collisions (either of particle and hole, or of equal mas s holes) the spectra for infinity>r(0)>similar to 5M show a series of evenly spaced bumps. A simple explanation is given for this. Lastly, o ur energy versus r(0) results are compared with approximation methods used elsewhere, for small and for large initial separation.