English

Spatial Mixing for Independent Sets in Poisson Random Trees

Probability 2015-02-24 v1

Abstract

We consider correlation decay in the hard-core model with fugacity λ\lambda on a rooted tree TT in which the arity of each vertex is independently Poisson distributed with mean dd. Specifically, we investigate the question of which parameter settings (d,λ)(d, \lambda) result in strong spatial mixing, weak spatial mixing, or neither. (In our context, weak spatial mixing is equivalent to Gibbs uniqueness.) For finite fugacity, a zero-one law implies that these spatial mixing properties hold either almost surely or almost never, once we have conditioned on whether TT is finite or infinite. We provide a partial answer to this question, which implies in particular that 1. As dd \to \infty, weak spatial mixing on the Poisson tree occurs whenever λ<f(d)o(1)\lambda < f(d) - o(1) but not when λ\lambda is slightly above f(d)f(d), where f(d)f(d) is the threshold for WSM (and SSM) on the dd-regular tree. This suggests that, in most cases, Poisson trees have similar spatial mixing behavior to regular trees. 2. When 1<d1.1791 < d \le 1.179, there is weak spatial mixing on the Poisson(dd) tree for all values of λ\lambda. However, strong spatial mixing does not hold for sufficiently large λ\lambda. This is in contrast to regular trees, for which strong spatial mixing and weak spatial mixing always coincide. For infinite fugacity SSM holds only when the tree is finite, and hence almost surely fails on the Poisson(dd) tree when d>1d>1. We show that WSM almost surely holds on the Poisson(dd) tree for d<e1/2/2=1.434...d < \mathbf{e}^{1/\sqrt{2}}/\sqrt{2} =1.434..., but that it fails with positive probability if d>ed>\mathbf{e}.

Cite

@article{arxiv.1502.06136,
  title  = {Spatial Mixing for Independent Sets in Poisson Random Trees},
  author = {Varsha Dani and Thomas P. Hayes and Cristopher Moore},
  journal= {arXiv preprint arXiv:1502.06136},
  year   = {2015}
}
R2 v1 2026-06-22T08:34:40.091Z