On the spectral theory and dispersive estimates for a discrete Schr\"odinger equation in one dimension

Abstract

Based on the recent work KKK for compact potentials, we develop the spectral theory for the one-dimensional discrete Schr\"odinger operator H φ = (- + V)φ=-(φn+1 + φn-1 - 2 φn) + Vn φn. We show that under appropriate decay conditions on the general potential (and a non-resonance condition at the spectral edges), the spectrum of H consists of finitely many eigenvalues of finite multiplicities and the essential (absolutely continuous) spectrum, while the resolvent satisfies the limiting absorption principle and the Puiseux expansions near the edges. These properties imply the dispersive estimates \|ei t H P a.c.(H)\|l2σ l2-σ t-3/2 for any fixed σ > 5/2 and any t > 0, where P a.c.(H) denotes the spectral projection to the absolutely continuous spectrum of H. In addition, based on the scattering theory for the discrete Jost solutions and the previous results in SK, we find new dispersive estimates \|ei t H P a.c.(H) \|l1 l∞ t-1/3. These estimates are sharp for the discrete Schr\"odinger operators even for V = 0.