Quantum Thermodynamics of an M2-M5 Brane System

TL;DR

This paper explores the quantum thermodynamics and stability of an M2-M5 brane system at short distances, incorporating quantum gravitational corrections and analyzing information geometry using effective quantum metrics.

Contribution

It introduces a detailed study of quantum thermodynamics and stability of M2-M5 branes with quantum gravitational corrections, employing the Jarzynski equality and quantum information geometry.

Findings

Quantum work calculated using Jarzynski equality.

Quantum gravitational corrections affect thermodynamic stability.

Quantum mass concept used to analyze information geometry.

Abstract

We will investigate a system of M2-M5 branes as a black M2-M5 bound state. The behavior of this system will be investigated at short distances. At such scales, we will have to incorporate quantum gravitational corrections to the supergravity solutions. We will study the non-equilibrium quantum thermodynamics of this black M2-M5 bound state. The quantum work for this solution will be obtained using the Jarzynski equality. We will also study the corrections to the thermodynamic stability of this system from quantum gravitational corrections. We will use the concept of a novel quantum mass to analyze the quantum gravitational corrections to the information geometry of this system. This will be done using effective quantum metrics for this system.