Haoyu Wang
Published 2019-12-11Version 1
We prove the first explicit rate of convergence to the Tracy-Widom distribution for the fluctuation of the largest eigenvalue of sample covariance matrices that are not integrable. Our primary focus is matrices of type $ X^*X $ and the proof follows the Erd\"{o}s-Schlein-Yau dynamical method. We use a recent approach to the analysis of the Dyson Brownian motion from [5] to obtain a quantitative error estimate for the local relaxation flow at the edge. Together with a quantitative version of the Green function comparison theorem, this gives the rate of convergence. Combined with a result of Lee-Schnelli [26], some quantitative estimates also hold for more general separable sample covariance matrices $ X^* \Sigma X $ with general diagonal population $ \Sigma $.
Small deviation estimates for the largest eigenvalue of Wigner matrices
Large deviation principle for the largest eigenvalue of random matrices with a variance profile
Convergence rate to the Tracy-Widom laws for the largest eigenvalue of Wigner matrices
![QR code for arXiv:1912.05473 [math.PR]](http://oss.arxitics.com/images/favicon.svg)