de Sitter Vacua & pUniverses

Abstract

We analyze a simple extension of the Schwinger model, which we refer to as the p-Schwinger model, on a de Sitter background. In this theory, the charged massless fermions carry non-unit integer charge p. In Minkowski space, the p-Schwinger model has discrete zero- and one-form global symmetries that are spontaneously broken, yielding p degenerate ground states. We demonstrate that these features persist upon placing the p-Schwinger model on a global de Sitter background, establishing that such discrete global symmetries can be spontaneously broken for quantum field theories in de Sitter space. In particular, the theory is endowed with p distinct, but locally-indistinguishable, de Sitter invariant states, the de Sitter vacua, satisfying the Hadamard property. We couple a variant of the p-Schwinger model with N f flavors to quantum gravity with >0, and demonstrate the existence of a semiclassical de Sitter saddle at large N f. In the gravitational theory, the p de Sitter invariant vacua are speculatively interpreted as microstates of the de Sitter horizon in the low-energy effective field theory.