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Main Authors: Hong, Soon-Tae, Kim, Yong-Wan, Park, Young-Jai
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2508.01559
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author Hong, Soon-Tae
Kim, Yong-Wan
Park, Young-Jai
author_facet Hong, Soon-Tae
Kim, Yong-Wan
Park, Young-Jai
contents We investigate the statistical entropy of black holes within the framework of the generalized uncertainty principle (GUP) by employing effective metrics that incorporate leading-order and all-orders quantum gravitational corrections. We construct three distinct effective metrics induced by the GUP, which are derived from GUP-corrected temperature, entropy, and all-orders GUP corrections, and analyze their impact on black hole entropy using 't Hooft's brick wall method. Our results show that, despite the differences in the effective metrics and the corresponding ultraviolet cutoffs, the statistical entropy consistently satisfies the Bekenstein-Hawking area law when expressed in terms of an invariant (coordinate-independent) distance near the horizon. Furthermore, we demonstrate that the GUP naturally regularizes the ultraviolet divergence in the density of states, eliminating the need for artificial cutoffs and yielding finite entropy even when counting quantum states only in the vicinity of the event horizon. These findings highlight the universality and robustness of the area law under GUP modifications and provide new insights into the interplay between quantum gravity effects and black hole thermodynamics.
format Preprint
id arxiv_https___arxiv_org_abs_2508_01559
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Statistical Entropy Based on the Generalized-Uncertainty-Principle-Induced Effective Metric
Hong, Soon-Tae
Kim, Yong-Wan
Park, Young-Jai
General Relativity and Quantum Cosmology
We investigate the statistical entropy of black holes within the framework of the generalized uncertainty principle (GUP) by employing effective metrics that incorporate leading-order and all-orders quantum gravitational corrections. We construct three distinct effective metrics induced by the GUP, which are derived from GUP-corrected temperature, entropy, and all-orders GUP corrections, and analyze their impact on black hole entropy using 't Hooft's brick wall method. Our results show that, despite the differences in the effective metrics and the corresponding ultraviolet cutoffs, the statistical entropy consistently satisfies the Bekenstein-Hawking area law when expressed in terms of an invariant (coordinate-independent) distance near the horizon. Furthermore, we demonstrate that the GUP naturally regularizes the ultraviolet divergence in the density of states, eliminating the need for artificial cutoffs and yielding finite entropy even when counting quantum states only in the vicinity of the event horizon. These findings highlight the universality and robustness of the area law under GUP modifications and provide new insights into the interplay between quantum gravity effects and black hole thermodynamics.
title Statistical Entropy Based on the Generalized-Uncertainty-Principle-Induced Effective Metric
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2508.01559