Ballistic Transport for Discrete Multi-Dimensional Schrödinger Operators With Decaying Potential

Abstract

We consider the discrete Schrödinger operator H = -Δ+ V on 2(Zd) with a decaying potential, in arbitrary lattice dimension d∈N*, where Δ is the standard discrete Laplacian and Vn = o(|n|-1) as |n| ∞. %We prove the absence of singular continuous spectrum for H. For the unitary evolution e-i tH, we prove that it exhibits ballistic transport in the sense that, for any r > 0, the weighted 2-norm \|e-i tHu\|r:=(Σn∈Zd (1+|n|2)r |(e-i tHu)n|2)12 grows at rate tr as t ∞, provided that the initial state u is in the absolutely continuous subspace and satisfies \|u\|r<∞. The proof relies on commutator methods and Mourre estimate, which yields quantitative lower bounds on transport for operators with purely absolutely continuous spectrum over appropriate spectral intervals.