We demonstrate a single-photon stored-light interferometer, where a photon is stored in a laser-cooled atomic ensemble in the form of a Rydberg polariton with a spatial extent of 10×1×1μm3. The photon is subject to a Ramsey sequence, i.e. `split' into a superposition of two paths. After a delay of up to 450 ns, the two paths are recombined to give an output dependent on their relative phase. The superposition time of 450 ns is equivalent to a free-space propagation distance of 135 m. We show that the interferometer fringes are sensitive to external fields, and suggest that stored-light interferometry could be useful for localized sensing applications.
@article{arxiv.2008.04675,
title = {Single-Photon Stored-Light Interferometry},
author = {Yuechun Jiao and Nicholas L. R. Spong and Oliver D. W. Hughes and Chloe So and Teodora Ilieva and Kevin J. Weatherill and Charles S. Adams},
journal= {arXiv preprint arXiv:2008.04675},
year = {2020}
}
Comments
5 pages, 5 figures; Small changes to figure locations