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    李铁, 谌娟, 柯熙政, 吕宏

    Study of orbital angular momentum entangled photons entanglement in atmospheric channel

    Li Tie, Chen Juan, Ke Xi-Zheng,
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    • 本文讨论了大气信道中轨道角动量纠缠光子对的纠缠度, 并利用von Karman大气湍流谱来建立双光子纠缠度的模型, 分析了大气湍流对不同轨道角动量纠缠光子对纠缠度的影响. 研究表明: 在大气信道中, 由于大气湍流的存在, 纠缠光子对的纠缠度随着传输距离z的增加而减小; 大气湍流强度越大, 纠缠光子对的纠缠度下降的越快, 纠缠光子对传输的距离越小; 在湍流强度相同的大气信道轨道角动量指数越大的纠缠光子对, 纠缠度下降得越慢, 纠缠光子对传输的距离越远.
      In this paper, we describe orbital angular momentum entangled photon pair entanglement in atmospheric channel. The Von Karman spectrum of turbulence is used to create a model of two-photon pair entanglement. The effects of atmospheric turbulence on the entanglement of entangled photon pairs of different orbital angular momentum bases are analyzed. The obtained results are as follows because of the presence of atmospheric turbulence, the entanglement of entangled photon pairs decreases with the increase of the propagation distance z in the atmosphere channel. The entanglement of the entangled photon pairs decreases with the increase of transmission distance. The bigger the turbulence intensity, the faster the entanglement decline and the shorter the propagation distanceis. In the same intensity of atmospheric turbulence of the atmospheric channel, the bigger the orbital angular momentum index, the slower the entanglement decline and the further the propagation distanceis.
        • 基金项目:国家自然科学基金(60977054)和教育厅产业化培育项目(2010JC17)资助的课题.
        • Funds:Project supported by the National Natural Science Foundation of China (Grant No. 60977054), and the Foundation of the Education Bureau (Grant No. 2010JC17).
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      计量
      • 文章访问数:7347
      • PDF下载量:626
      • 被引次数:0
      出版历程
      • 收稿日期:2011-09-04
      • 修回日期:2011-11-04
      • 刊出日期:2012-06-05

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