The Weak Gravity Conjecture, Overcharged Shells and Gravitational Traps

Abstract

The Weak Gravity Conjecture predicts that in quantum gravity there should exist overcharged states, that is states with charge larger than their mass. Extending this to large masses and charges, we are expecting similar overcharged classical solutions. This has been demonstrated in higher-derivative extensions of General Relativity. In this paper we investigate the existence of overcharged solutions in General Relativity. We study the dynamics of a thin shell of mass m and charge Q under the action of its own gravitational and U(1) fields. We show that shells with surface energy σ and pressure P obeying P=wσ with 0≤ w≤ 1 are necessarily undercharged m≥ |Q| and always collapse to form Reissner-Nordstr\"om black holes. Nevertheless, if -1≤ w<0, we find that overcharged m≤ |Q| shells exist, which however, are inevitably stabilized at finite radial distance.