Random Matrices: The circular Law

Abstract

Let be a complex random variable with mean zero and bounded variance σ2. Let Nn be a random matrix of order n with entries being i.i.d. copies of . Let λ1, ..., λn be the eigenvalues of 1σ nNn. Define the empirical spectral distribution μn of Nn by the formula μn(s,t) := 1n # \k ≤ n| (λk) ≤ s; (λk) ≤ t \. The Circular law conjecture asserts that μn converges to the uniform distribution μ∞ over the unit disk as n tends to infinity. We prove this conjecture under the slightly stronger assumption that the (2+η)-moment of is bounded, for any η >0. Our method builds and improves upon earlier work of Girko, Bai, G\"otze-Tikhomirov, and Pan-Zhou, and also applies for sparse random matrices. The new key ingredient in the paper is a general result about the least singular value of random matrices, which was obtained using tools and ideas from additive combinatorics.