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Exploring Non-perturbative Corrections in Thermodynamics of Static Dirty Black Holes

Saheb Soroushfar, Behnam Pourhassan, İzzet Sakallı

Abstract

This study presents an investigation into the thermodynamic properties of a dirty black hole immersed in a uniform electric field within the framework of the Einstein-Nonlinear Electrodynamics (ENE)-dilaton theory. The analysis delves into various thermodynamic aspects, including heat capacity, Helmholtz free energy, and internal energy, providing insights into the behavior of the black hole under the influence of the electric field. Furthermore, the article explores the intricate interplay between quantum effects and thermodynamic behavior through the examination of quantum-corrected entropy. The study aims to shed light on the non-perturbative corrections that arise in this complex system, offering a comprehensive understanding of the modified thermodynamics of dirty black holes within the specified theoretical framework.

Exploring Non-perturbative Corrections in Thermodynamics of Static Dirty Black Holes

Abstract

This study presents an investigation into the thermodynamic properties of a dirty black hole immersed in a uniform electric field within the framework of the Einstein-Nonlinear Electrodynamics (ENE)-dilaton theory. The analysis delves into various thermodynamic aspects, including heat capacity, Helmholtz free energy, and internal energy, providing insights into the behavior of the black hole under the influence of the electric field. Furthermore, the article explores the intricate interplay between quantum effects and thermodynamic behavior through the examination of quantum-corrected entropy. The study aims to shed light on the non-perturbative corrections that arise in this complex system, offering a comprehensive understanding of the modified thermodynamics of dirty black holes within the specified theoretical framework.
Paper Structure (10 sections, 33 equations, 4 figures)

This paper contains 10 sections, 33 equations, 4 figures.

Table of Contents

  1. Introduction
  2. Features of dirty black holes of ENE-dilaton theory
  3. Thermodynamics
  4. Exponential correction
  5. Heat capacity
  6. Helmholtz free energy
  7. Internal energy
  8. Quantum work
  9. Conclusion
  10. Acknowledgements

Figures (4)

  • Figure 1: Variations of the original and the corrected heat capacity according to the horizon radius $r_{+}$.
  • Figure 2: Variations of the Helmholtz free energy in terms of horizon radius $r_{+}$.
  • Figure 3: Variations of the internal energy in terms of horizon radius $r_{+}$.
  • Figure 4: Variations of quantum work ($e^{\frac{\Delta F}{T}}$) with respect to the horizon radius $r_{+}$.