\begin{document}$ \sim $\end{document}18. In cavity-enhanced DLCZ scheme, we use a fiber cavity instead of a stationary cavity. If a stationary cavity is used, the signal light will be reflected by the end mirror of the cavity and then pass back through the atoms. The storage of the backward signal light will generate a short-wavelength spin wave and then lead to a rapid decoherence of the memory. When cavity is locked by using the PDH frequency locking technique, we observe that the production probability of the Stokes photons is increased by 4.6 times higher than that without cavity and retrieval efficiency of atomic spin wave is increased by 1.6 times that without cavity due to the optical cavity enhancement effect. The presented cavity-enhanced storage shows that the retrieval efficiency is \begin{document}$ \sim $\end{document}22%, corresponding to an intrinsic retrieval efficiency of \begin{document}$ \sim $\end{document}40%, at the same time the fidelity of the quantum state is \begin{document}$ \sim $\end{document}92%. The accomplishment of this project will provide another effective way of realizing long-distance quantum communication and large-scale quantum network construction."> - 必威体育下载

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Wen Ya-Fei, Tian Jian-Feng, Wang Zhi-Qiang, Zhuang Yuan-Yuan
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  • Abstract views:3512
  • PDF Downloads:125
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Publishing process
  • Received Date:14 November 2022
  • Accepted Date:21 December 2022
  • Available Online:07 January 2023
  • Published Online:20 March 2023

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