More Limiting Distributions for Eigenvalues of Wigner Matrices

Abstract

The Tracy-Widom distributions are among the most famous laws in probability theory, partly due to their connection with Wigner matrices. In particular, for A=1n(aij)1 ≤ i,j ≤ n ∈ Rn × n symmetric with (aij)1 ≤ i ≤ j ≤ n i.i.d. standard normal, the fluctuations of its largest eigenvalue λ1(A) are asymptotically described by a real-valued Tracy-Widom distribution TW1: n2/3(λ1(A)-2) ⇒ TW1. As it often happens, Gaussianity can be relaxed, and this results holds when E[a11]=0, E[a211]=1, and the tail of a11 decays sufficiently fast: x ∞x4P(|a11|>x)=0, whereas when the law of a11 is regularly varying with index α ∈ (0,4), ca(n)n1/2-2/αλ1(A) converges to a Fr\'echet distribution for ca:(0,∞) (0,∞) slowly varying and depending solely on the law of a11. This paper considers a family of edge cases, x ∞x4P(|a11|>x)=c ∈ (0,∞), and unveils a new type of limiting behavior for λ1(A): a continuous function of a Fr\'echet distribution in which 2, the almost sure limit of λ1(A) in the light-tailed case, plays a pivotal role: f(x)=cases 2, & 0<x<1 x+1x, & x ≥ 1 cases.