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Paper detail

Quantum Storage of Orbital Angular Momentum Entanglement in an Atomic Ensemble

Constructing a quantum memory for a photonic entanglement is vital for realizing quantum communication and network. Besides enabling the realization of high channel capacity communication, entangled photons of high-dimensional space are of great interest because of many extended applications in quantum information and fundamental physics fields. Photons entangled in a two-dimensional space had been stored in different system, but there have been no any report on the storage of a photon pair entangled in a high-dimensional space. Here, we report the first experimental realization of storing an entangled orbital angular momentum (OAM) state through a far off-resonant two-photon transition (FORTPT) in a cold atomic ensemble. We reconstruct the matrix density of an OAM entangled state postselected in a two-dimensional subspace with a fidelity of 90.3%+/-0.8% and obtain the Clauser, Horne and Shimony and Holt inequality parameter S of 2.41+/-0.06 after a programmed storage time. All results clearly show the preservation of entanglement during the storage. Besides, we also realize the storage of a true-single-photon via FORTPT for the first time.

preprint2014arXivOpen access
Dong-Sheng DingWei ZhangZhi-Yuan ZhouShuai ShiGuo-Yong XiangXi-Shi WangYun-Kun JiangBao-Sen ShiGuang-Can Guo
quant-ph
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Dong-Sheng DingWei ZhangZhi-Yuan ZhouShuai ShiGuo-Yong XiangXi-Shi WangYun-Kun JiangBao-Sen ShiGuang-Can Guo

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