Weak Gravity Conjecture in de Sitter space-time

Abstract

We propose a generalisation of the Weak Gravity Conjecture in de Sitter space by studying charged black-holes and comparing the gravitational and an abelian gauge forces. Using the same condition as in flat space, namely the absence of black-hole remnants, one finds that for a given mass m there should be a state with a charge q bigger than a minimal value q min(m,l), depending on the mass and the de Sitter radius l, in Planck units. In the large radius flat space limit (large l), q min m leading to the known result q>m/2, while in the highly curved case (small l) q min behaves as ml. We also discuss the example of the gauged R-symmetry in N=1 supergravity.