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量子纠缠是量子信息领域的核心资源,目前利用β型硼酸钡(BBO)晶体参量下转换制备的纠缠光子对的亮度较低,它直接制约了量子通信的最远距离,已无法满足星地实用化量子通信的发展需求.利用周期极化KTiOPO4晶体,采用准相位匹配技术设计产生了一种后选择的纠缠源,测得的符合计数达到了16×103s-1 mW-1,极化对比度达到27∶1,在亮度上比基于BBO的量子纠缠光源提高了一个数量级以上.这一高亮度的纠缠源可以广泛应用于量子密钥分发、量子隐形传态以及量子计算等新兴量子信息领域,为实现全球化量子通信提供了有力的保障. 相似文献
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Faithful long-distance quantum teleportation necessitates prior
entanglement distribution between two communicated locations. The
particle carrying on the unknown quantum information is then
combined with one particle of the entangled states for Bell-state
measurements, which leads to a transfer of the original quantum
information onto the other particle of the entangled states. However
in most of the implemented teleportation experiments nowadays, the
Bell-state measurements are performed even before successful
distribution of entanglement. This leads to an instant collapse of
the quantum state for the transmitted particle, which is actually a
single-particle transmission thereafter. Thus the true distance for
quantum teleportation is, in fact, only in a level of meters. In the
present experiment we design a novel scheme which has overcome this
limit by utilizing fiber as quantum memory. A complete quantum
teleportation is achieved upon successful entanglement distribution
over 967 meters in public free space. Active feed-forward control
techniques are developed for real-time transfer of quantum
information. The overall experimental fidelities for teleported
states are better than 89.6%, which signify high-quality
teleportation. 相似文献
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量子纠缠是量子信息领域的核心资源,目前利用β型硼酸钡(BBO)晶体参量下转换制备的纠缠光子对的亮度较低,它直接制约了量子通信的最远距离,已无法满足星地实用化量子通信的发展需求.利用周期极化KTiOPO4晶体,采用准相位匹配技术设计产生了一种后选择的纠缠源,测得的符合计数达到了16×103s-1 mW-1,极化对比度达到27∶1,在亮度上比基于BBO的量子纠缠光源提高了一个数量级以上.这一高亮度的纠缠源可以广泛应用于量子密钥分发、量子隐形传态以及量子计算等新兴量子信息领域,为实现全球化量子通信提供了有力的保障.
关键词:
纠缠态
准相位匹配
4晶体')" href="#">周期极化KTiOPO4晶体 相似文献
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