Antiferromagnetic Covariance Structure of Coulomb Chain

Abstract

We consider a system of particles lined up on a finite interval with Coulomb 3-dimensional interactions between close neighbours, i.e. only a few other neighbours apart. This model was introduced by Malyshev (2015) to study the flow of charged particles. Notably even the nearest-neighbours interactions case, the only one studied previously, was proved to exhibit multiple phase transitions depending on the strength of the external force when the number of particles goes to infinity. Here we show that including interactions beyond the nearest-neighbours ones, leads to qualitatively new features. The order of covariances of distances between pairs of consecutive charges is changed when compared with the former nearest-neighbours case. Furthermore, we discover that the covariances between inter-spacings exhibit the antiferromagnetic property, namely they periodically change sign depending on the parity of number of spacings between them, while their amplitude decays.