Scale-free percolation

We formulate and study a model for inhomogeneous long-range percolation on Z. Each vertex x ∈ Z is assigned a non-negative weight Wx, where (Wx)x∈Zd are i.i.d. random variables. Conditionally on the weights, and given two parameters α, λ > 0, the edges are independent and the probability that there is an edge between x and y is given by pxy = 1 − exp{−λWxWy/|x − y|α}. The parameter λ is the percolation parameter, while α describes the long-range nature of the model. We focus on the degree distribution in the resulting graph, on whether there exists an infinite component and on graph distance between remote pairs of vertices. First, we show that the tail behavior of the degree distribution is related to the tail behavior of the weight distribution. When the tail of the distribution of Wx is regularly varying with exponent τ − 1, then the tail of the degree distribution is regularly varying with exponent γ = α(τ − 1)/d. The parameter γ turns out to be crucial for the behavior of the model. Conditions on the weight distribution and γ are formulated for the existence of a critical value λc ∈ (0,∞) such that the graph contains an infinite component when λ > λc and no infinite component when λ < λc. Furthermore, a phase transition is established for the graph distances between vertices in the infinite component at the point γ = 2, that is, at the point where the degrees switch from having finite to infinite second moment. The model can be viewed as an interpolation between long-range percolation and models for inhomogeneous random graphs, and we show that the behavior shares the interesting features of both these models.