Improved bounds on the phase transition for the hard-core model in 2 dimensions
Vera,Juan C. Vigoda,E. Yang,L.
Vera,Juan C.
Vigoda,E.
Yang,L.
Abstract
For the hard-core lattice gas model defined on independent sets weighted by an activity $\lambda$, we study the critical activity $\lambda_c(\mathbb{Z}^2)$ for the uniqueness/nonuniqueness threshold on the 2-dimensional integer lattice $\mathbb{Z}^2$. The conjectured value of the critical activity is approximately 3.796. Until recently, the best lower bound followed from algorithmic results of Weitz [Proceedings of the $38$th Annual ACM Symposium on Theory of Computing, ACM, New York, 2006, pp. 140--149]. Weitz presented a fully polynomial-time approximation scheme for approximating the partition function for graphs of constant maximum degree $\Delta$ when $\lambda<\lambda_c(\mathbb{T}_\Delta)$, where $\mathbb{T}_\Delta$ is the infinite, regular tree of degree $\Delta$. His result established a certain decay of correlations property called strong spatial mixing (SSM) on $\mathbb{Z}^2$ by proving that SSM holds on its self-avoiding walk tree $T_{\mathrm{saw}}^\sigma(\mathbb{Z}^2)$, where $\sigma=(\sigma_v)_{v\in \mathbb{Z}^2}$ and $\sigma_v$ is an ordering on the neighbors of vertex $v$. As a consequence he obtained that $\lambda_c(\mathbb{Z}^2)\geq\lambda_c( \mathbb{T}_4) = 1.675$. Restrepo et al. [Probab. Theory Related Fields, 156 (2013), pp. 75--99] improved Weitz's approach for the particular case of $\mathbb{Z}^2$ and obtained that $\lambda_c(\mathbb{Z}^2)>2.388$. In this paper, we establish an upper bound for this approach, by showing that, for all $\sigma$, SSM does not hold on $T_{\mathrm{saw}}^\sigma(\mathbb{Z}^2)$ when $\lambda>3.4$. We also present a refinement of the approach of Restrepo et al. which improves the lower bound to $\lambda_c(\mathbb{Z}^2)>2.48$.
Description
Date
2015-10-01
Journal Title
Journal ISSN
Volume Title
Publisher
Research Projects
Organizational Units
Journal Issue
Keywords
approximate counting, MCMC, strong spatial mixing, branching matrices, linear programming
Citation
Vera, J C, Vigoda, E & Yang, L 2015, 'Improved bounds on the phase transition for the hard-core model in 2 dimensions', SIAM Journal on Discrete Mathematics, vol. 29, no. 4, pp. 1895–1915. https://doi.org/10.1137/140976923