The rank of sparse symmetric matrices over arbitrary fields

Abstract

Let be an arbitrary field and (Gn,d/n)n be a sequence of sparse weighted Erdos-R\'enyi random graphs on n vertices with edge probability d/n, where weights from \0\ are assigned to the edges according to a fixed matrix Jn. We show that the normalised rank of the adjacency matrix of (Gn,d/n)n converges in probability to a constant, and derive the limiting expression. Our result shows that for the general class of sparse symmetric matrices under consideration, the asymptotics of the normalised rank are independent of the edge weights and even the field, in the sense that the limiting constant for the general case coincides with the one previously established for adjacency matrices of sparse (non-weighted) Erdos-R\'enyi matrices over from bordenave2011rank. Our proof, which is purely combinatorial in its nature, is based on an intricate extension of the novel perturbation approach from coja2022rank to the symmetric setting.