Fast and Quasideterministic Single Ion Source from a Dipole-Blockaded Atomic Ensemble
Atomic Physics
2013-06-04 v3 Quantum Physics
Abstract
We present a fast and Quasideterministic protocol for the production of single ions and electrons from a cloud of laser cooled atoms. The approach is based on a two-step process where first a single Rydberg atom is photo-excited from a dipole-blockade configuration and subsequently ionized by an electric field pulse. We theoretically describe these excitation-ionization cycles via dynamical quantum maps and observe a rich behavior of the ionization dynamics as a function of laser Rabi frequency, pulse duration and particle number. Our results show that a fast sequential heralded production of single charged particles is achievable even from an unstructured and fluctuating atomic ensemble.
Cite
@article{arxiv.1302.6502,
title = {Fast and Quasideterministic Single Ion Source from a Dipole-Blockaded Atomic Ensemble},
author = {C. Ates and I. Lesanovsky and C. S. Adams and K. J. Weatherill},
journal= {arXiv preprint arXiv:1302.6502},
year = {2013}
}
Comments
7 pages (including appendix), 4 figures