First passage percolation on the Newman–Watts small world model

Abstract

\u3cp\u3eThe Newman–Watts model is given by taking a cycle graph of n vertices and then adding each possible edge (Formula presented.) modn with probability ρ/n for some ρ>0 constant. In this paper we add i.i.d. exponential edge weights to this graph, and investigate typical distances in the corresponding random metric space given by the least weight paths between vertices. We show that typical distances grow as (Formyula presented.) logn for a λ>0 and determine the distribution of smaller order terms in terms of limits of branching process random variables. We prove that the number of edges along the shortest weight path follows a Central Limit Theorem, and show that in a corresponding epidemic spread model the fraction of infected vertices follows a deterministic curve with a random shift.\u3c/p\u3