Interaction Between AdS Black Hole Molecules

Abstract

We take a bottom-up approach to find the interaction potential between the AdS black hole molecules under mean-field approximation. We start with the equation of state of dyonic AdS black holes in fixed charge ensemble and use the method of classical cluster expansion to find the mean-field potential. We show that the Lennard-Jones (LJ) potential is a feasible choice to describe the equation of state. The LJ potential describes a two-body interaction. There exists a critical distance r0 such that two interacting particles repel (attract) each other for r < r0 (r > r0). We compute the value of r0 for dyonic AdS black holes and compare the result obtained from the Ruppeiner scalar curvature. Our analysis shows how the electric (and magnetic) charge effects the interaction between black hole molecules.