Abstract

In this paper, we test the weak cosmic censorship conjecture (WCCC) for the Reissner–Nordström–de Sitter (RN-dS) black hole surrounded by perfect fluid dark matter. We consider a spherically symmetric perturbation on deriving linear and non-linear order perturbation inequalities by applying a new version of gedanken experiments well accepted from the work of Sorce and Wald. Contrary to the well-known result that the Reissner–Nordström (RN) black hole could be overcharged under linear order particle accretion it is hereby shown that the same black hole in perfect fluid dark matter with cosmological parameter cannot be overcharged. Considering a realistic scenario in which black holes cannot be considered to be in vacuum we investigate the contribution of dark matter and cosmological constant in the overcharging process of an electrically charged black hole. We demonstrate that the black hole can be overcharged only when two fields induced by dark matter and cosmological parameter are completely balanced. Further we present a remarkable result that a black hole cannot be overcharged beyond a certain threshold limit for which the effect arising from the cosmological constant dominates over the effect by the perfect fluid dark matter. Thus even for a linear accretion process, the black hole cannot always be overcharged and hence obeys the WCCC in general. This result would continue to be fulfilled for non-linear order accretion.

Highlights

  • In general relativity (GR), astrophysical black holes are formed under gravitational collapse of massive star at the end state of evolution, and they have always been very fascinating and intriguing objects for their extreme geometric and remarkable gravitational properties

  • In this paper, we test the weak cosmic censorship conjecture (WCCC) for the Reissner–Nordström–de Sitter (RN-dS) black hole surrounded by perfect fluid dark matter

  • We studied the validity of the WCCC for the RN-dS black hole with perfect fluid dark matter profile by adapting a new version of gedanken experiments developed by Sorce and Wald

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Summary

Introduction

In general relativity (GR), astrophysical black holes are formed under gravitational collapse of massive star at the end state of evolution, and they have always been very fascinating and intriguing objects for their extreme geometric and remarkable gravitational properties. It turns out that this thought experiment can only provide the correct result if the black hole could be overcharged/spun In this context, the WCCC cannot be violated all through for non-linear order [41,49,50,51,52,53,54,55]. The question arises of what happens for the RN black hole when we consider a real astrophysical scenario by taking into account the effects due to the presence of a cosmological constant and perfect fluid dark matter—could it be overcharged or not and does it violate the WCCC for linear order accretion?

Variational identities
Einstein–Maxwell theory and RN-dS black hole in perfect fluid dark matter
Findings
Conclusions

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