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Main Authors: Beyen, Aaron, Hamamcı, Efe, Meerts, Kasper, Bleeken, Dieter Van den
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2310.08127
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author Beyen, Aaron
Hamamcı, Efe
Meerts, Kasper
Bleeken, Dieter Van den
author_facet Beyen, Aaron
Hamamcı, Efe
Meerts, Kasper
Bleeken, Dieter Van den
contents We revisit and improve the analytic study arXiv:1804.03462 of spherically symmetric but dynamical black holes in Einstein's gravity coupled to a real scalar field. We introduce a series expansion in a small parameter $ε$ that implements slow time dependence. At the leading order, the generic solution is a quasi-stationary Schwarzschild-de Sitter (SdS) metric, i.e. one where time-dependence enters only through the mass and cosmological constant parameters of SdS. The two coupled ODEs describing the leading order time dependence are solved up to quadrature for an arbitrary scalar potential. Higher order corrections can be consistently computed, as we show by explicitly solving the Einstein equations at the next to leading order as well. We comment on how the quasi-stationary expansion we introduce here is equivalent to the non-relativistic $1/c$ expansion.
format Preprint
id arxiv_https___arxiv_org_abs_2310_08127
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Dynamical de Sitter black holes in a quasi-stationary expansion
Beyen, Aaron
Hamamcı, Efe
Meerts, Kasper
Bleeken, Dieter Van den
General Relativity and Quantum Cosmology
High Energy Physics - Theory
We revisit and improve the analytic study arXiv:1804.03462 of spherically symmetric but dynamical black holes in Einstein's gravity coupled to a real scalar field. We introduce a series expansion in a small parameter $ε$ that implements slow time dependence. At the leading order, the generic solution is a quasi-stationary Schwarzschild-de Sitter (SdS) metric, i.e. one where time-dependence enters only through the mass and cosmological constant parameters of SdS. The two coupled ODEs describing the leading order time dependence are solved up to quadrature for an arbitrary scalar potential. Higher order corrections can be consistently computed, as we show by explicitly solving the Einstein equations at the next to leading order as well. We comment on how the quasi-stationary expansion we introduce here is equivalent to the non-relativistic $1/c$ expansion.
title Dynamical de Sitter black holes in a quasi-stationary expansion
topic General Relativity and Quantum Cosmology
High Energy Physics - Theory
url https://arxiv.org/abs/2310.08127