Effect of Thermal Fluctuations on a Charged Dilatonic Black Saturn

TL;DR

This paper investigates how thermal fluctuations influence the thermodynamics and phase transitions of a charged dilatonic black Saturn, revealing consistent results across different analytical approaches.

Contribution

It introduces a detailed analysis of thermal fluctuation effects on the thermodynamics of charged dilatonic black Saturns, connecting entropy fluctuations to conformal field theory insights.

Findings

Thermal fluctuations modify the thermodynamic properties of the black Saturn.

Consistent results are obtained from entropy-energy and conformal field theory approaches.

Thermal fluctuations impact phase transition behavior in the system.

Abstract

In this paper, we will analyze the effect of thermal fluctuations on the thermodynamics of a charged dilatonic black Saturn. These thermal fluctuations will correct the thermodynamics of the charged dilatonic black Saturn. We will analyze the corrections to the thermodynamics of this system by first relating the fluctuations in the entropy to the fluctuations in the energy. Then, we will use the relation between entropy and a conformal field theory to analyze the fluctuations in the entropy. We will demonstrate that similar physical results are obtained from both these approaches. We will also study the effect of thermal fluctuations on the phase transition in this charged dilatonic black Saturn.