Non-Pertubative Quantum Corrections to a Born-Infeld Black Hole and its Information Geometry

TL;DR

This paper investigates how non-perturbative quantum corrections, modeled as exponential modifications, affect the thermodynamics and information geometry of Born-Infeld black holes in a spherical cavity.

Contribution

It introduces a novel analysis of non-perturbative quantum effects on black hole entropy, thermodynamics, and information geometry, extending previous perturbative studies.

Findings

Quantum corrections modify the entropy-area relation.

Thermodynamic quantities like Helmholtz free energy are affected.

Information geometry metrics reveal changes due to quantum effects.

Abstract

We study the non-perturbative quantum corrections to a Born-Infeld black hole in a spherical cavity. These quantum corrections produce a non-trivial short distances modification to the relation between the entropy and area of this black hole. The non-perturbative quantum correction appears as an exponential term in the black hole entropy. This in turn modifies the thermodynamics of a given system, for example reduced value of the Helmholtz free energy. Moreover, the first law of black hole thermodynamics modified due to quantum corrections. We also investigate the effect of such non-perturbative corrections on the information geometry of this system. This is done using some famous information metrics.