Atom interferometry using $\delta$-kicked and finite duration pulse-sequences
Quantum Physics
2019-06-28 v1 Atomic Physics
Abstract
We investigate an atom interferometer in which large momentum differences between the arms are obtained by using quantum resonances in the atom optics -kicked rotor. The interferometer can potentially measure the Talbot time (from which can be deduced), the local gravitational field, or can serve as a narrow velocity filter. We present an analytical analysis in the short pulse limit, and a numerical investigation for finite pulse durations. The sensitivity of the interferometer is improved by a moderate violation of the short pulse limit. Remarkably simple relations predict the optimal pulse duration, and the sensitivity of the interferometer.
Cite
@article{arxiv.1906.11420,
title = {Atom interferometry using $\delta$-kicked and finite duration pulse-sequences},
author = {Boris Daszuta and Mikkel F. Andersen},
journal= {arXiv preprint arXiv:1906.11420},
year = {2019}
}
Comments
A typo in Eq 15 of the originally published paper has been corrected in this version