Improved Upper Bound to the Entropy of a Charged System

Abstract

Recently, we derived an improved universal upper bound to the entropy of a charged system S ≤ π (2E b-q2)/ . There was, however, some uncertainty in the value of the numerical factor which multiplies the q2 term. In this paper we remove this uncertainty; we rederive this upper bound from an application of the generalized second law of thermodynamics to a gedanken experiment in which an entropy-bearing charged system falls into a Schwarzschild black hole. A crucial step in the analysis is the inclusion of the effect of the spacetime curvature on the electrostatic self-interaction of the charged system.