Vitor Cardoso, Jose' P. S. Lemos
Published 2001-12-29, updated 2002-05-15Version 2
We study the collision between a BTZ black hole and a test particle coupled to a scalar field. We compute the power spectrum, the energy radiated and the plunging waveforms for this process. We show that for late times the signal is dominated by the quasinormal ringing. In terms of the AdS/CFT correspondence the bulk gravity process maps into a thermal state, an expanding bubble and gauge particles decaying into bosons of the associated operator. These latter thermalize in a timescale predicted by the bulk theory.
Comments: 5 pages, 3 figures;minor improvements; references added
Journal: Phys.Rev. D65 (2002) 104032
Black hole collision with a scalar particle in four, five and seven dimensional anti-de Sitter spacetimes: ringing and radiation
Geometric Finiteness and Non-quasinormal Modes of the BTZ Black Hole
BTZ Black Hole with Higher Derivatives, the Second Law of Thermodynamics, and Statistical Entropy: A New Proposal
