Anatomy of a gaussian giant: supercritical level-sets of the free field on random regular graphs

Abstract

In this paper, we study the level-set of the zero-average Gaussian Free Field on a uniform random d-regular graph above an arbitrary level h∈ (-∞, h), where h is the level-set percolation threshold of the GFF on the d-regular tree Td. We prove that w.h.p as the number n of vertices diverges, the GFF has a unique giant connected component C1(n) of size η(h) n+o(n), where η(h) is the probability that the root percolates in the corresponding GFF level-set on Td. This gives a positive answer to the conjecture of ACregulgraphs for most regular graphs. We also prove that the second largest component has size ( n). Moreover, we show that C1(n) shares the following similarities with the giant component of the supercritical Erdos-R\'enyi random graph. First, the diameter and the typical distance between vertices are ( n). Second, the 2-core and the kernel encompass a given positive proportion of the vertices. Third, the local structure is a branching process conditioned to survive, namely the level-set percolation cluster of the root in Td (in the Erdos-R\'enyi case, it is known to be a Galton-Watson tree with a Poisson distribution for the offspring).