Tunnelling and the Casimir effect on a D-dimensional sphere

Abstract

Two fundamental signatures of Quantum Mechanics are tunnelling and the Casimir effect. We examine the ground state energetic properties of a scalar field confined on a D-dimensional sphere, and subjected to these two effects. We focus on D=2 and D=3, with a non-minimal coupling of a massless scalar field to curvature, which provides a radius-dependent effective mass. This scenario allows tunnelling to be more important than the Casimir effect, in a certain regime of parameters, and potential implications in Early Cosmology are discussed for the case D=3, which could avoid a cosmological singularity.