Quantum Mixing for Schr\"odinger eigenfunctions in Benjamini-Schramm limit

Abstract

Let -H+V be the Schr\"odinger operator on H where V ∈ Lp(H) L∞(H) for some p > 0. If (Xn) is a uniformly discrete sequence of compact hyperbolic surfaces with a uniform spectral gap that Benjamini-Schramm converges to H, we prove quantum mixing for the eigenfunctions of -Xn+Vn in any sufficiently large spectral window I, where Vn is the potential on Xn induced by V. These apply to large degree lifts of a potential on a base surface such as congruence covers of arithmetic surfaces, with high probability to random hyperbolic surfaces in the Weil-Petersson model of large genus, and to Hartree one-particle operators arising in thermodynamic limit of many-body Bose gas on hyperbolic surfaces. The proof uses the Duhamel formula for the hyperbolic wave equation together with exponential mixing of the geodesic flow on T1 Xn.