📝 SummarXiv

Abstract

We investigate a novel variant of the exclusion process in which particles perform asymmetric nearest-neighbor jumps across a bond \((k, k+1)\) only if the preceding site \((k-1)\) is unoccupied. This next-nearest-neighbor constraint significantly enriches the system's dynamics, giving rise to long-range correlations and a mixed-order transition controlled by the asymmetry parameter. We focus on the critical case of half filling, where the system splits into two ergodic components, each associated with an invariant reversible measure. The combinatorial structure of this equilibrium distribution is intimately connected to the \(q\)-Catalan numbers, enabling us to derive rigorously the asymptotic behavior of key thermodynamic quantities in the strongly asymmetric regime and to conjecture their behavior in the weakly asymmetric limit. Even though the system is one-dimensional and has short-range interactions, an equilibrium phase transition occurs between a clustered phase -- characterized by slow dynamics, long-range correlations with thermodynamic additivity, and spontaneous breaking of translational symmetry -- and a fluid phase where the correlations are short-range and which is thermodynamically additive. This equilibrium phase transition features characteristics of a first-order transition, such as a discontinuous order parameter as well as characteristics of a second-order transition, namely a divergent susceptibility at the transition point. We also briefly discuss density higher than one half where ergodicity is broken.