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Main Authors: Bolokhov, S. V., Konoplya, R. A.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.10419
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author Bolokhov, S. V.
Konoplya, R. A.
author_facet Bolokhov, S. V.
Konoplya, R. A.
contents Recently, metrics that describe regular black holes, extreme black holes, or traversable wormholes have been widely discussed. These spacetimes, appearing in scenarios such as the brane world, are contingent on the values of the parameters, with each metric encompassing all three objects. We are considering various known models for these black hole/wormhole interpolating spacetimes and showing that, starting from the macroscopic black holes, all of them must evaporate into macroscopic wormholes, thus avoiding existential problems related to the final stages of black hole evaporation and issues of quantum gravity and black hole remnants. For this purpose, we are calculating the energy emission rates of black holes and the appropriate lifetimes. We argue that some of our conclusions should hold regardless of the specific model, as long as it permits an extremal black hole state with zero temperature at a particular value of the coupling constant.
format Preprint
id arxiv_https___arxiv_org_abs_2410_10419
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Circumventing Quantum Gravity: Black Holes Evaporating into Macroscopic Wormholes
Bolokhov, S. V.
Konoplya, R. A.
General Relativity and Quantum Cosmology
High Energy Physics - Theory
Recently, metrics that describe regular black holes, extreme black holes, or traversable wormholes have been widely discussed. These spacetimes, appearing in scenarios such as the brane world, are contingent on the values of the parameters, with each metric encompassing all three objects. We are considering various known models for these black hole/wormhole interpolating spacetimes and showing that, starting from the macroscopic black holes, all of them must evaporate into macroscopic wormholes, thus avoiding existential problems related to the final stages of black hole evaporation and issues of quantum gravity and black hole remnants. For this purpose, we are calculating the energy emission rates of black holes and the appropriate lifetimes. We argue that some of our conclusions should hold regardless of the specific model, as long as it permits an extremal black hole state with zero temperature at a particular value of the coupling constant.
title Circumventing Quantum Gravity: Black Holes Evaporating into Macroscopic Wormholes
topic General Relativity and Quantum Cosmology
High Energy Physics - Theory
url https://arxiv.org/abs/2410.10419