Rigidity of proper colorings of Zd

Abstract

A proper q-coloring of a domain in Zd is a function assigning one of q colors to each vertex of the domain such that adjacent vertices are colored differently. Sampling a proper q-coloring uniformly at random, does the coloring typically exhibit long-range order? It has been known since the work of Dobrushin that no such ordering can arise when q is large compared with d. We prove here that long-range order does arise for each q when d is sufficiently high, and further characterize all periodic maximal-entropy Gibbs states for the model. Ordering is also shown to emerge in low dimensions if the lattice Zd is replaced by Zd1×Td2 with d1 2, d=d1+d2 sufficiently high and T a cycle of even length. The results address questions going back to Berker--Kadanoff (1980), Koteck\'y (1985) and Salas--Sokal (1997).