Semicircle law for multi-parameter random simplicial complexes

Abstract

In this paper, we consider the multi-parameter random simplicial complex model, which generalizes the Linial-Meshulam model and random clique complexes by allowing simplices of different dimensions to be included with distinct probabilities. For n,d ∈ N and p=(p1,p2,…, pd) such that pi ∈ (0,1] for all 1 ≤ i ≤ d, the multi-parameter random simplicial complex Yd(n,p) is constructed inductively. Starting with n vertices, edges (1-cells) are included independently with probability p1, yielding the Erdos-R\'enyi graph G(n,p1), which forms the 1-skeleton. Conditional on the (k-1)-skeleton, each possible k-cell is included independently with probability pk, for 2 ≤ k ≤ d. We study the signed and unsigned adjacency matrices of d-dimensional multi-parameter random simplicial complexes Yd(n,p), under the assumptions i=1,… d-1 pi >0 and npd → ∞ with pd=o(1). In general, these matrices have random dimensions and exhibit dependency among its entries. We prove that the empirical spectral distributions of both matrices converge weakly to the semicircle law in probability.