English

The social network model on infinite graphs

Probability 2019-06-25 v3

Abstract

Given an infinite connected regular graph G=(V,E)G=(V,E), place at each vertex Pois(λ\lambda) walkers performing independent lazy simple random walks on GG simultaneously. When two walkers visit the same vertex at the same time they are declared to be acquainted. We show that when GG is vertex-transitive and amenable, for all λ>0\lambda>0 a.s. any pair of walkers will eventually have a path of acquaintances between them. In contrast, we show that when GG is non-amenable (not necessarily transitive) there is always a phase transition at some λc(G)>0\lambda_{c}(G)>0. We give general bounds on λc(G)\lambda_{c}(G) and study the case that GG is the dd-regular tree in more details. Finally, we show that in the non-amenable setup, for every λ\lambda there exists a finite time tλ(G)t_{\lambda}(G) such that a.s. there exists an infinite set of walkers having a path of acquaintances between them by time tλ(G)t_{\lambda}(G).

Keywords

Cite

@article{arxiv.1610.04293,
  title  = {The social network model on infinite graphs},
  author = {Jonathan Hermon and Ben Morris and Chuan Qin and Allan Sly},
  journal= {arXiv preprint arXiv:1610.04293},
  year   = {2019}
}

Comments

43 pages

R2 v1 2026-06-22T16:20:22.577Z