Quantum Thermodynamics of a Quantum Sized AdS Black Hole
Behnam Pourhassan, Mahdi Atashi, Houcine Aounallah, Salman Sajad Wani,, Mir Faizal, Barun Majumder
TL;DR
This paper explores how non-perturbative quantum gravitational effects influence the thermodynamics and evaporation process of a quantum-sized AdS black hole, revealing modifications in stability and quantum work distribution.
Contribution
It introduces a detailed analysis of non-perturbative quantum gravitational corrections on black hole thermodynamics and evaporation using non-equilibrium quantum thermodynamics.
Findings
Quantum gravitational corrections alter black hole stability.
Non-perturbative effects modify the quantum work distribution during evaporation.
The study provides new insights into quantum black hole thermodynamics.
Abstract
In this paper, we investigate the effects of non-perturbative quantum gravitational corrections on a quantum sized AdS black hole. It will be observed that these non-perturbative quantum gravitational corrections modify the stability of this black hole. We will use the non-equilibrium quantum thermodynamics to investigate the evaporation of this black hole between two states. We will analyze the effects of non-perturbative quantum gravitational corrections on this non-equilibrium quantum thermodynamics. We will explicitly obtain the quantum work distribution for this black hole, as it evaporates between two states. It will be observed that this quantum work distribution is modified due to non-perturbative quantum gravitational corrections.
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