A possible mechanism of concurring diagonal and off-diagonal long-range order for soft interactions

Abstract

This paper is a contribution to the theory of coherent crystals. We present arguments claiming that negative minima in the Fourier transform of a soft pair interaction may give rise to the coexistence of diagonal and off-diagonal long-range order at high densities, and that this coexistence may be detectable due to a periodicity seen on the off-diagonal part of the one-body reduced density matrix, without breaking translation invariance. As an illustration, we study the ground state of a homogenous system of bosons in continuous space, from the interaction retaining only the Fourier modes v() belonging to a single nonzero wave number ||=q. The result is a mean-field model. We prove that for v()>0 the ground state is asymptotically fully Bose-condensed, while for v()<0 at densities exceeding a multiple of 2 q2/2m|v()| it exhibits both Bose-Einstein condensation and diagonal long-range order, and the latter can be seen on both the one- and the two-body density matrix.