Radiative Tail of Realistic Rotating Gravitational Collapse
- 3 January 2000
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review Letters
- Vol. 84 (1) , 10-13
- https://doi.org/10.1103/physrevlett.84.10
Abstract
An astrophysically realistic model of wave dynamics in black-hole spacetimes must involve a nonspherical background geometry with angular momentum. We consider the evolution of gravitational (and electromagnetic) perturbations in rotating Kerr spacetimes. We show that a rotating Kerr black hole becomes “bald” slower than the corresponding spherically symmetric Schwarzschild black hole. Moreover, our results turn over the traditional belief (which has been widely accepted during the last three decades) that the late-time tail of gravitational collapse is universal. Our results are also of importance both to the study of the no-hair conjecture and the mass-inflation scenario (stability of Cauchy horizons).Keywords
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This publication has 15 references indexed in Scilit:
- Late-Time Decay of Scalar Perturbations Outside Rotating Black HolesPhysical Review Letters, 1999
- Late-time singularity inside nonspherical black holesPhysical Review D, 1998
- Dynamics of perturbations of rotating black holesPhysical Review D, 1997
- Evolving test fields in a black-hole geometryPhysical Review D, 1997
- Dynamics of scalar fields in the background of rotating black holesPhysical Review D, 1996
- Internal structure of black holesPhysical Review D, 1990
- Spectral decomposition of the perturbation response of the Schwarzschild geometryPhysical Review D, 1986
- Nonspherical Perturbations of Relativistic Gravitational Collapse. I. Scalar and Gravitational PerturbationsPhysical Review D, 1972
- Debye potentials for the gravitational fieldPhysica, 1971
- Handbook of Mathematical FunctionsAmerican Journal of Physics, 1966