基于固有稳定偏振调制单元的测量设备无关量子密钥分发的原理验证演示。

Proof-of-principle demonstration of measurement-device-independent quantum key distribution based on intrinsically stable polarization-modulated units.

作者信息

Yuan Yi-Ping, Du Cong, Shen Qi-Qi, Wang Jin-Dong, Yu Ya-Fei, Wei Zheng-Jun, Chen Zhao-Xi, Zhang Zhi-Ming

出版信息

Opt Express. 2020 Apr 13;28(8):10772-10782. doi: 10.1364/OE.387968.

DOI:10.1364/OE.387968

Abstract

The experimental demonstration of measurement-device-independent quantum key distribution (MDI-QKD) has been widely demonstrated. Thus far, several experimental groups have implemented polarization encoding MDI-QKD but with manual polarization controllers, or polarization modulators that make circular polarization states unstable. Here, we apply an intrinsically stable polarization-modulated unit (PMU) to MDI-QKD so that Alice and Bob can modulate four BB84 polarization states, all of which can be kept stable from even the harsh environment. Moreover, our PMU can provide two operational polarization encoding modes suitable to different application scenarios. A proof-of-principle demonstration of MDI-QKD based on our PMU is implemented with an interference visibility of 46.6%, an average quantum bit error rate of 1.49% for the Z basis and the secure key rate of 4.25 × 10 bits per pulse. The proposed study is helpful for building polarization encoding MDI-QKD systems with better stability.

摘要

测量设备无关量子密钥分发（MDI-QKD）的实验演示已得到广泛验证。到目前为止，已有几个实验小组实现了偏振编码MDI-QKD，但使用的是手动偏振控制器或会使圆偏振态不稳定的偏振调制器。在此，我们将一种本质上稳定的偏振调制单元（PMU）应用于MDI-QKD，使得爱丽丝和鲍勃能够调制四种BB84偏振态，即便在恶劣环境下所有这些偏振态也都能保持稳定。此外，我们的PMU能够提供适用于不同应用场景的两种操作偏振编码模式。基于我们的PMU实现了MDI-QKD的原理验证演示，干涉可见度为46.6%，Z基下平均量子误码率为1.49%，单脉冲安全密钥率为4.25×10比特。本研究所提内容有助于构建稳定性更好的偏振编码MDI-QKD系统。

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