Rotating Gaussian wave packets in weak external potentials
Abstract
We address the time evolution of two- and three-dimensional nonrelativistic Gaussian wave packets in the presence of a weak external potential of arbitrary functional form. The focus of our study is the phenomenon of rotation of a Gaussian wave packet around its center of mass, as quantified by mean angular momentum computed relative to the wave packet center. Using a semiclassical approximation of the eikonal type, we derive an explicit formula for a time-dependent change of mean angular momentum of a wave packet induced by its interaction with a weak external potential. As an example, we apply our analytical approach to the scenario of a two-dimensional quantum particle crossing a tilted ridge potential barrier. In particular, we demonstrate that the initial orientation of the particle wave packet determines the sense of its rotation, and report a good agreement between analytical and numerical results.
Cite
@article{arxiv.1703.06413,
title = {Rotating Gaussian wave packets in weak external potentials},
author = {Arseni Goussev},
journal= {arXiv preprint arXiv:1703.06413},
year = {2017}
}
Comments
Updated version. Phys. Rev. A (in press)