Transport of a quantum particle in a time-dependent white-noise potential

Abstract

We show that a quantum particle in Rd, for d ≥ 1, subject to a white-noise potential, moves super-ballistically in the sense that the mean square displacement ∫ \|x\|2 (x,x,t) ~dx grows like t3 in any dimension. The white noise potential is Gaussian distributed with an arbitrary spatial correlation function and a delta correlation function in time. This is a known result in one dimension (see refs. Fischer, Leschke, M\"uller and Javannar, Kumar. The energy of the system is also shown to increase linearly in time. We also prove that for the same white-noise potential model on the lattice Zd, for d ≥ 1, the mean square displacement is diffusive growing like t1. This behavior on the lattice is consistent with the diffusive behavior observed for similar models in the lattice Zd with a time-dependent Markovian potential (see ref. Kang, Schenker).