Process tomography of dynamical decoupling in a dense optically trapped atomic ensemble
Abstract
Atomic ensembles have many potential applications in quantum information science. Owing to collective enhancement, working with ensembles at high densities increases the overall efficiency of quantum operations, but at the same time also increases the collision rate and leads to faster decoherence. Here we report on experiments with optically trapped 87Rb atoms demonstrating a 20-fold increase of the coherence time when a dynamical decoupling sequence with more than 200 pi-pulses is applied. We perform quantum process tomography and demonstrate that using the decoupling scheme a dense ensemble with an optical depth of 230 can be used as an atomic memory with coherence times exceeding 3 sec.
Cite
@article{arxiv.1004.1011,
title = {Process tomography of dynamical decoupling in a dense optically trapped atomic ensemble},
author = {Yoav Sagi and Ido Almog and Nir Davidson},
journal= {arXiv preprint arXiv:1004.1011},
year = {2010}
}
Comments
10 pages, 3 figures, including supplementary information section