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Landauer's principle and black hole area quantization

Authors :
Bagchi, Bijan
Ghosh, Aritra
Sen, Sauvik
Source :
Gen. Relativ. Gravit. 56, 108 (2024)
Publication Year :
2024

Abstract

This article assesses Landauer's principle from information theory in the context of area quantization of the Schwarzschild black hole. Within a quantum-mechanical perspective where Hawking evaporation can be interpreted in terms of transitions between the discrete states of the area (or mass) spectrum, we justify that Landauer's principle holds consistently in the saturated form when the number of microstates of the black hole goes as $2^n$, where $n$ is a large positive integer labeling the levels of the area/mass spectrum in the semiclassical regime. This is equivalent to the area spacing $\Delta A = \alpha l_P^2$ (in natural units), where $\alpha = 4 \ln 2$ for which the entropy spacing between consecutive levels in Boltzmann units coincides exactly with one bit of information. We also comment on the situation for other values of $\alpha$ prevalent in the literature.<br />Comment: v1: Preliminary version, comments are welcome; v2: Revised version, accepted in General Relativity and Gravitation; v3: Published in General Relativity and Gravitation

Details

Database :
arXiv
Journal :
Gen. Relativ. Gravit. 56, 108 (2024)
Publication Type :
Report
Accession number :
edsarx.2408.02077
Document Type :
Working Paper
Full Text :
https://doi.org/10.1007/s10714-024-03296-8