Mode coupling of Schwarzschild perturbations: Ringdown frequencies

Within linearized perturbation theory, black holes decay to their final stationary state through the well-known spectrum of quasinormal modes. Here we numerically study whether nonlinearities change this picture. For that purpose we study the ringdown frequencies of gauge-invariant second-order grav...

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Bibliographic Details
Published in:arXiv.org 2010-09
Main Authors: Pazos, Enrique, Brizuela, David, Martin-Garcia, Jose M, Tiglio, Manuel
Format: Article
Language:English
Subjects:
Computer simulation
Coupling
Datasets
Decay
Gravitation
Gravitational waves
Linearization
Mathematical models
Multipoles
Parity
Perturbation theory
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Summary:Within linearized perturbation theory, black holes decay to their final stationary state through the well-known spectrum of quasinormal modes. Here we numerically study whether nonlinearities change this picture. For that purpose we study the ringdown frequencies of gauge-invariant second-order gravitational perturbations induced by self-coupling of linearized perturbations of Schwarzschild black holes. We do so through high-accuracy simulations in the time domain of first and second-order Regge-Wheeler-Zerilli type equations, for a variety of initial data sets. We consider first-order even-parity \((\ell=2,m=\pm 2)\) perturbations and odd-parity \((\ell=2,m=0)\) ones, and all the multipoles that they generate through self-coupling. For all of them and all the initial data sets considered we find that ---in contrast to previous predictions in the literature--- the numerical decay frequencies of second-order perturbations are the same ones of linearized theory, and we explain the observed behavior. This would indicate, in particular, that when modeling or searching for ringdown gravitational waves, appropriately including the standard quasinormal modes already takes into account nonlinear effects.
ISSN:2331-8422
DOI:10.48550/arxiv.1009.4665