Rising GUE Eigenvalue Process from a Fixed Level

Abstract

We construct the multilevel correlation kernel for the rising GUE eigenvalue process starting from a fixed initial configuration x(m), and show that it converges on short time scales (as quickly as polylog(m)) to the extended semi-discrete sine kernel. As an application, we show fixed-energy universality of bulk local statistics of complex Hermitian Wigner matrices matching the covariance structure of GUE and with a finite 4+ moment for >0. This application demonstrates that it is possible to obtain universality of bulk local statistics under near-optimal moment assumptions without using a Dyson Brownian motion relaxation step, which was a key ingredient in many results on this topic.