Repulsive Casimir forces at quantum criticality

Abstract

We study the Casimir effect in the vicinity of a quantum critical point. As a prototypical system we analyze the d-dimensional imperfect (mean-field) Bose gas enclosed in a slab of extension Ld-1× D and subject to periodic boundary conditions. The thermodynamic state is adjusted so that Lλ Dmic, where λ T-1/2 is the thermal de Broglie length, and lmic denotes microscopic lengthscales. Our exact analysis indicates that the Casimir force in the above specified regime is generically repulsive and decays either algebraically or exponentially, with a non-universal amplitude.