Reduced Phase Space Quantization and Quantum Corrected Entropy of Schwarzschild-De Sitter Horizons
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Date
2026
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Publisher
Elsevier B.V.
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Abstract
This paper investigates the quantization of the Schwarzschild–de Sitter (SdS) black hole (BH) using the Misner–Sharp–Hernandez (MSH) mass as the internal energy in a reduced phase space framework. After introducing the canonical variables of the reduced phase space, we derive a discrete spectrum for the surface areas of the BH event horizon (EH) as well as MSH masses. We utilized the MSH mass spectrum to obtain the entropy of the BH. The entropy of the BH and cosmic EHs reveals a logarithmic correction to the Bekenstein–Hawking term. Our results support the robustness of the logarithmic form of quantum corrections in SdS thermodynamics. © 2026 The Authors.
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Keywords
Black Hole, Canonical Transformation, Entropy, Reduced Phase Space
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Q1
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Source
Physics Letters B
Volume
874
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