Dispersion for the Schr\"odinger equation on the line with short-range array of delta potentials

Abstract

We study dispersive properties of the one-dimensional Schr\"odinger equation with a short-range array of delta interactions. More precisely, we consider the self-adjoint operator obtained by perturbing the free Laplacian on the line with a real-valued sequence of Dirac delta potentials and belonging to weighted 1(Z) spaces. Under suitable decay assumptions on the coupling constants and in the absence of a zero-energy resonance, we establish the L1 (R) → L∞ (R) dispersive estimate with decay rate |t|-1/2 for the associated Schr\"odinger group. The proof relies on a limiting absorption principle in weighted spaces, explicit representation of the resolvent kernel in terms of Jost solutions and Born series expansion of the Friedrichs extension of the perturbed operator.

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