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Main Authors: Aref'eva, Irina, Stepanenko, Daniil, Volovich, Igor
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2411.01778
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author Aref'eva, Irina
Stepanenko, Daniil
Volovich, Igor
author_facet Aref'eva, Irina
Stepanenko, Daniil
Volovich, Igor
contents In the thermodynamics of black holes in asymptotically flat space, the third law of thermodynamics is violated, and entropy cannot be consistently modeled through conventional statistical mechanics. Notably, the third law of thermodynamics is violated for the Schwarzschild black hole, and its entropy can only be described using an unconventional model, such as a Bose gas in negative dimensions. In contrast, for certain black brane solutions such as Poincare AdS black branes, Lifshitz black branes, and anisotropic Lifshitz-type black branes, the third law is preserved, with entropy vanishing as temperature approaches zero. In this paper, we extend the previously established duality between black hole and Bose gas thermodynamics to black branes. Specifically, the Poincare black brane in $D$ spacetime dimensions corresponds to a non-relativistic Bose gas in $2(D-2)$ spatial dimensions. Furthermore, the duality between Lifshitz branes and Bose gases relates a Lifshitz brane with exponent $α$ in $D$-dimensional spacetime to a Bose gas of quasi-particles with energy $k^α$ in $D-2$ spatial dimensions.
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institution arXiv
publishDate 2024
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spellingShingle Black Brane/Bose Gase Duality and Third Law of Thermodynamics
Aref'eva, Irina
Stepanenko, Daniil
Volovich, Igor
High Energy Physics - Theory
In the thermodynamics of black holes in asymptotically flat space, the third law of thermodynamics is violated, and entropy cannot be consistently modeled through conventional statistical mechanics. Notably, the third law of thermodynamics is violated for the Schwarzschild black hole, and its entropy can only be described using an unconventional model, such as a Bose gas in negative dimensions. In contrast, for certain black brane solutions such as Poincare AdS black branes, Lifshitz black branes, and anisotropic Lifshitz-type black branes, the third law is preserved, with entropy vanishing as temperature approaches zero. In this paper, we extend the previously established duality between black hole and Bose gas thermodynamics to black branes. Specifically, the Poincare black brane in $D$ spacetime dimensions corresponds to a non-relativistic Bose gas in $2(D-2)$ spatial dimensions. Furthermore, the duality between Lifshitz branes and Bose gases relates a Lifshitz brane with exponent $α$ in $D$-dimensional spacetime to a Bose gas of quasi-particles with energy $k^α$ in $D-2$ spatial dimensions.
title Black Brane/Bose Gase Duality and Third Law of Thermodynamics
topic High Energy Physics - Theory
url https://arxiv.org/abs/2411.01778