Universality of the Wigner-Gurau limit for random tensors (2404.14144v2)

Abstract: In this article, we develop a combinatorial approach for studying moments of the resolvent trace for random tensors proposed by Razvan Gurau. Our work is based on the study of hypergraphs and extends the combinatorial proof of moments convergence for Wigner's theorem. This also opens up paths for research akin to free probability for random tensors. Specifically, trace invariants form a complete basis of tensor invariants and constitute the moments of the resolvent trace. For a random tensor with entries independent, centered, with the right variance and bounded moments, we prove the convergence of the expectation and bound the variance of the balanced single trace invariant. This implies the universality of the convergence of the associated measure towards the law obtained by Gurau in the Gaussian case, whose limiting moments are given by the Fuss-Catalan numbers. This generalizes Wigner's theorem for random tensors. Additionally, in the Gaussian case, we show that the limiting distribution of the $k$-times contracted $p$-order random tensor by a deterministic vector is always the Wigner-Gurau law at order $p-k$, dilated by $\sqrt{\binom{p-1}{k}}$. This establishes a connection with the approach of random tensors through the matrix study of the $p-2$ contractions of the tensor.