Single-Photon Stored-Light Interferometry.

arXiv: Atomic Physics Pub Date : 2020-08-11 DOI:10.15128/r18k71nh124
Y. Jiao, N. L. R. Spong, O. D. Hughes, Chloe So, T. Ilieva, K. Weatherill, C. Adams
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Abstract

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 $10 \times1\times1\mu m^3$. 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.
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单光子存储光干涉法。
我们演示了一种单光子存储光干涉仪,其中光子以空间范围为$10 \times1\times1\mu m^3$的Rydberg极化子的形式存储在激光冷却的原子系集合中。光子服从拉姆齐序列,即。“分裂”成两条路径的叠加。经过高达450ns的延迟后,两条路径重新组合,以提供依赖于其相对相位的输出。450 ns的叠加时间相当于135 m的自由空间传播距离。我们证明了干涉仪条纹对外部场敏感,并建议存储光干涉法可以用于局部传感应用。
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arXiv: Atomic Physics
arXiv: Atomic Physics
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