The ability to filter unwanted light signals is critical to the operation of quantum memories based on neutral atom ensembles. Here we demonstrate an efficient frequency filter which uses a vapor cell filled with 85Rb and a buffer gas to attenuate both residual laser light and noise photons by nearly two orders of magnitude with little loss to the single photons associated with our cold 87Rb quantum memory. This simple, passive filter provides an additional 18 dB attenuation of our pump laser and erroneous spontaneous emissions for every 1 dB loss of the single photon signal. We show that the addition of a frequency filter increases the non-classical correlations and readout efficiency of our quantum memory by ≈35%.
@article{arxiv.1411.7430,
title = {A Simple and Efficient Absorption Filter for Single Photons from a Cold Atom Quantum Memory},
author = {Dan T. Stack and Patricia J. Lee and Qudsia Quraishi},
journal= {arXiv preprint arXiv:1411.7430},
year = {2017}
}
Comments
11 pages, 10 figures, will be submitted to refereed journal