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- Title
First-order quantum correction of thermodynamics in a charged accelerating AdS black hole with gauge potential.
- Authors
Ali, Riasat; Babar, Rimsha; Aounallah, Houcine; Övgün, Ali
- Abstract
In this paper, we study the tunneling radiation from a charged-accelerating AdS black hole with gauge potential under the impact of quantum gravity. Using the semi-classical phenomenon known as the Hamilton–Jacobi ansatz, it is studied that tunneling radiation occurs via the horizon of a black hole and also employs the Lagrangian equation using the generalized uncertainty principle. Furthermore, we investigate the impact of charge, gauge potential, and first order correction parameters on the temperature as well as the stable and unstable states of the black hole. We also compute thermodynamic properties such as entropy, internal energy, Helmholtz free energy, enthalpy, specific heat, and Gibbs free energy under the impact of the correction parameter for the black hole. We calculate the logarithmic modification terms for entropy around the equilibrium state to analyze the impacts of logarithmic correction. In the presence of the correction terms, we also check the validity of the thermodynamics. It examines the graphical representation of the influence of logarithmic correction on the thermodynamic properties of black hole stability as well as charged, accelerating, and gauge potential parameters.
- Subjects
HAWKING radiation; BLACK holes; THERMODYNAMICS; HELMHOLTZ free energy; GIBBS' free energy; THERMODYNAMIC functions; QUANTUM thermodynamics; LAGRANGE equations
- Publication
International Journal of Geometric Methods in Modern Physics, 2024, Vol 21, Issue 8, p1
- ISSN
0219-8878
- Publication type
Article
- DOI
10.1142/S0219887824501494