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Eigenvalue repulsions and quasinormal mode spectra of Kerr-Newman: an extended study

Eigenvalue repulsions and quasinormal mode spectra of Kerr-Newman: an extended study
Eigenvalue repulsions and quasinormal mode spectra of Kerr-Newman: an extended study
The frequency spectra of the gravito-electromagnetic perturbations of the Kerr-Newman (KN) black hole with the slowest decay rate have been computed recently. It has been found that KN has two families — the photon sphere and the near-horizon families — of quasinormal modes (QNMs), which display the interesting phenomenon of eigenvalue repulsion. The perturbation equations, in spite of being a coupled system of two PDEs, are amenable to an analytic solution using the method of separation of variables in a near-horizon expansion around the extremal KN black hole. This leads to an analytical formula for the QNM frequencies that provides an excellent approximation to the numerical data near-extremality. In the present manuscript we provide an extended study of these properties that were not detailed in the original studies. This includes: 1) a full derivation of a gauge invariant system of two coupled PDEs that describes the perturbation equations [1], 2) a derivation of the eikonal frequency approximation [2, 3] and its comparison with the numerical QNM data, 3) a derivation of the near-horizon frequency approximation [3] and its comparison with the numerical QNMs, and 4) more details on the phenomenon of eigenvalue repulsion (also known as level repulsion, avoided crossing or Wigner-Teller effect) and a first principles understanding of it that was missing in the previous studies. Moreover, we provide the frequency spectra of other KN QNM families of interest to demonstrate that they are more damped than the ones we discuss in full detail.
Black Holes, Classical Theories of Gravity
1126-6708
Dias, Oscar J. C.
f01a8d9b-9597-4c32-9226-53a6e5500a54
Godazgar, Mahdi
ebc387c2-967d-4075-9d65-0ae27bf8733b
Santos, Jorge E.
6e5a1703-a14c-4ef6-bfe4-7e4c5177c274
Dias, Oscar J. C.
f01a8d9b-9597-4c32-9226-53a6e5500a54
Godazgar, Mahdi
ebc387c2-967d-4075-9d65-0ae27bf8733b
Santos, Jorge E.
6e5a1703-a14c-4ef6-bfe4-7e4c5177c274

Dias, Oscar J. C., Godazgar, Mahdi and Santos, Jorge E. (2022) Eigenvalue repulsions and quasinormal mode spectra of Kerr-Newman: an extended study. Journal of High Energy Physics, 2022, [76]. (doi:10.1007/JHEP07(2022)076).

Record type: Article

Abstract

The frequency spectra of the gravito-electromagnetic perturbations of the Kerr-Newman (KN) black hole with the slowest decay rate have been computed recently. It has been found that KN has two families — the photon sphere and the near-horizon families — of quasinormal modes (QNMs), which display the interesting phenomenon of eigenvalue repulsion. The perturbation equations, in spite of being a coupled system of two PDEs, are amenable to an analytic solution using the method of separation of variables in a near-horizon expansion around the extremal KN black hole. This leads to an analytical formula for the QNM frequencies that provides an excellent approximation to the numerical data near-extremality. In the present manuscript we provide an extended study of these properties that were not detailed in the original studies. This includes: 1) a full derivation of a gauge invariant system of two coupled PDEs that describes the perturbation equations [1], 2) a derivation of the eikonal frequency approximation [2, 3] and its comparison with the numerical QNM data, 3) a derivation of the near-horizon frequency approximation [3] and its comparison with the numerical QNMs, and 4) more details on the phenomenon of eigenvalue repulsion (also known as level repulsion, avoided crossing or Wigner-Teller effect) and a first principles understanding of it that was missing in the previous studies. Moreover, we provide the frequency spectra of other KN QNM families of interest to demonstrate that they are more damped than the ones we discuss in full detail.

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2205.13072v1
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Accepted/In Press date: 13 June 2022
Published date: 12 July 2022
Additional Information: Publisher Copyright: © 2022, The Author(s).
Keywords: Black Holes, Classical Theories of Gravity

Identifiers

Local EPrints ID: 476182
URI: http://eprints.soton.ac.uk/id/eprint/476182
DOI: doi:10.1007/JHEP07(2022)076
ISSN: 1126-6708
PURE UUID: 2d10dc3e-f7b3-4c8f-a593-f24f07125c15
ORCID for Oscar J. C. Dias: ORCID iD orcid.org/0000-0003-4855-4750

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Date deposited: 13 Apr 2023 16:44
Last modified: 17 Mar 2024 03:35

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Author: Oscar J. C. Dias ORCID iD
Author: Mahdi Godazgar
Author: Jorge E. Santos

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