Columnar order in random packings of 2×2 squares on the square lattice

Abstract

We study random packings of 2×2 squares with centers on the square lattice Z2, in which the probability of a packing is proportional to λ to the number of squares. We prove that for large λ, typical packings exhibit columnar order, in which either the centers of most tiles agree on the parity of their x-coordinate or the centers of most tiles agree on the parity of their y-coordinate. This manifests in the existence of four extremal and periodic Gibbs measures in which the rotational symmetry of the lattice is broken while the translational symmetry is only broken along a single axis. We further quantify the decay of correlations in these measures, obtaining a slow rate of exponential decay in the direction of preserved translational symmetry and a fast rate in the direction of broken translational symmetry. Lastly, we prove that every periodic Gibbs measure is a mixture of these four measures. Additionally, our proof introduces an apparently novel extension of the chessboard estimate, from finite-volume torus measures to all infinite-volume periodic Gibbs measures.