Phonon-mediated Casimir interaction between finite mass impurities

Abstract

The Casimir effect, a two-body interaction via vacuum fluctuations, is a fundamental property of quantum systems. In solid state physics it emerges as a long-range interaction between two impurity atoms via virtual phonons. In the classical limit for the impurity atoms in D dimensions the interaction is known to follow the universal power-law U(r) r-D. However, for finite masses of the impurity atoms on a lattice, it was predicted to be U(r) r-2D-1 at large distances. We examine how one power-law can change into another with increase of the impurity mass and in presence of an external potential. We provide the exact solution for the system in one-dimension. At large distances indeed U(r) r-3 for finite impurity masses, while for the infinite impurity masses or in an external potential it crosses over to U(r) r-1 . At short distances the Casimir interaction is not universal and depends on the impurity mass and the external potential.