Parametrized quasi-normal mode framework for modified Teukolsky equations
Abstract
Modifications to general relativity lead to effects in the spectrum of quasi-normal modes of black holes. In this paper, we develop a parametrized formalism to describe deviations from general relativity in the Teukolsky equation, which governs linear perturbations of spinning black holes. We do this by introducing a correction to the effective potential of the Teukolsky equation in the form of a expansion controlled by free parameters. The method assumes that a small deviation in the effective potential induces a small modification in the spectrum of modes and in the angular separation constants. We isolate and compute the universal linear contribution to the quasi-normal mode frequencies and separation constants in a set of coefficients, and test them against known examples in the literature (massive scalar field, Dudley-Finley equation and higher-derivative gravity). We make the coefficients publicly available for relevant overtone, angular momentum and azimuthal numbers of modes and different values of the black hole spin.
Cite
@article{arxiv.2407.15947,
title = {Parametrized quasi-normal mode framework for modified Teukolsky equations},
author = {Pablo A. Cano and Lodovico Capuano and Nicola Franchini and Simon Maenaut and Sebastian H. Völkel},
journal= {arXiv preprint arXiv:2407.15947},
year = {2024}
}
Comments
15 pages, 5 figures, comments welcome; v2: references added. Version sent to the journal; v3: version accepted in PRD