Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources

Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources

The new version of the gedanken experiments proposed by Sorce and Wald are designed to test the validity of the weak cosmic censorship conjecture (WCCC) by overspinning or overcharging the Kerr-Newman black hole in Einstein-Maxwell gravity. Following their setup, in this paper, we investigate the WC...

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Main Authors: Zhen Li, Yunjiao Gao, Xiao-Kan Guo
Format: Article
Language:English
Published: Elsevier 2021-06-01
Series:Physics Letters B
Online Access:http://www.sciencedirect.com/science/article/pii/S0370269321002434
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spelling doaj-f0a7fcd482b444df9f25718a129f1bbb2021-05-28T04:59:38ZengElsevierPhysics Letters B0370-26932021-06-01817136303Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sourcesZhen Li0Yunjiao Gao1Xiao-Kan Guo2Department of Physics, Beijing Normal University, Beijing, 100875, China; Corresponding author.Department of Physics, Beijing Normal University, Beijing, 100875, ChinaSouth China Normal University, Shanwei, ChinaThe new version of the gedanken experiments proposed by Sorce and Wald are designed to test the validity of the weak cosmic censorship conjecture (WCCC) by overspinning or overcharging the Kerr-Newman black hole in Einstein-Maxwell gravity. Following their setup, in this paper, we investigate the WCCC in the higher-dimensional charged black hole with a nonlinear electrodynamics source. We derive the first and seconder order perturbation inequalities of the charged collision matter based on the Iyer-Wald formalism as well as the null energy conditions, and show that they share the similar form as that in Einstein-Maxwell gravity. As a result, we find that the static higher-dimensional nonlinear electrodynamics (HDNL) black holes cannot be overcharged after considering these two inequalities. Our result might indicate the validity of WCCC for more general HNDL and related systems.http://www.sciencedirect.com/science/article/pii/S0370269321002434
collection DOAJ
language English
format Article
sources DOAJ
author Zhen Li
Yunjiao Gao
Xiao-Kan Guo
spellingShingle Zhen Li
Yunjiao Gao
Xiao-Kan Guo
Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources
Physics Letters B
author_facet Zhen Li
Yunjiao Gao
Xiao-Kan Guo
author_sort Zhen Li
title Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources
title_short Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources
title_full Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources
title_fullStr Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources
title_full_unstemmed Weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources
title_sort weak cosmic censorship conjecture in higher-dimensional black holes with nonlinear electrodynamic sources
publisher Elsevier
series Physics Letters B
issn 0370-2693
publishDate 2021-06-01
description The new version of the gedanken experiments proposed by Sorce and Wald are designed to test the validity of the weak cosmic censorship conjecture (WCCC) by overspinning or overcharging the Kerr-Newman black hole in Einstein-Maxwell gravity. Following their setup, in this paper, we investigate the WCCC in the higher-dimensional charged black hole with a nonlinear electrodynamics source. We derive the first and seconder order perturbation inequalities of the charged collision matter based on the Iyer-Wald formalism as well as the null energy conditions, and show that they share the similar form as that in Einstein-Maxwell gravity. As a result, we find that the static higher-dimensional nonlinear electrodynamics (HDNL) black holes cannot be overcharged after considering these two inequalities. Our result might indicate the validity of WCCC for more general HNDL and related systems.
url http://www.sciencedirect.com/science/article/pii/S0370269321002434
work_keys_str_mv AT zhenli weakcosmiccensorshipconjectureinhigherdimensionalblackholeswithnonlinearelectrodynamicsources
AT yunjiaogao weakcosmiccensorshipconjectureinhigherdimensionalblackholeswithnonlinearelectrodynamicsources
AT xiaokanguo weakcosmiccensorshipconjectureinhigherdimensionalblackholeswithnonlinearelectrodynamicsources
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