Experimental Demonstration of High-Rate Measurement-Device-Independent Quantum Key Distribution over Asymmetric Channels

Liu Hui; Wang Wenyuan; Wei Kejin; Fang Xiao-Tian; Li Li; Liu Nai-Le; Liang Hao; Zhang Si-Jie; Zhang Weijun; Li Hao; You Lixing; Wang Zhen; Lo Hoi-Kwong; Chen Teng-Yun; Xu Feihu; Pan Jian-Wei

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Experimental Demonstration of High-Rate Measurement-Device-Independent Quantum Key Distribution over Asymmetric Channels

机译：非对称信道上高速率独立于测量设备的量子密钥分布的实验演示

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Measurement-device-independent quantum key distribution (MDI-QKD) can eliminate all detector side channels and it is practical with current technology. Previous implementations of MDI-QKD all used two symmetric channels with similar losses. However, the secret key rate is severely limited when different channels have different losses. Here we report the results of the first high-rate MDI-QKD experiment over asymmetric channels. By using the recent 7-intensity optimization approach, we demonstrate 10 x higher key rate than the previous best-known protocols for MDI-QKD in the situation of large channel asymmetry, and extend the secure transmission distance by more than 20-50 km in standard telecom fiber. The results have moved MDI-QKD towards widespread applications in practical network settings, where the channel losses are asymmetric and user nodes could be dynamically added or deleted.

机译：与测量设备无关的量子密钥分配（MDI-QKD）可以消除所有探测器侧通道，并且在当前技术中很实用。 MDI-QKD的先前实现都使用了两个具有相似损耗的对称通道。然而，当不同的信道具有不同的损失时，秘密密钥率受到严格限制。在这里，我们报告了在不对称信道上进行的第一个高速率MDI-QKD实验的结果。通过使用最新的7强度优化方法，我们证明了在大信道不对称的情况下，密钥速率比以前最著名的MDI-QKD协议高10倍以上，并且将安全传输距离扩展了20-50 km以上在标准电信光纤中。结果使MDI-QKD在实际的网络环境中得到了广泛的应用，在这些环境中，信道损耗是不对称的，并且可以动态添加或删除用户节点。

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《Physical review letters》 |2019年第16期|160501.1-160501.6|共6页
作者
Liu Hui; Wang Wenyuan; Wei Kejin; Fang Xiao-Tian; Li Li; Liu Nai-Le; Liang Hao; Zhang Si-Jie; Zhang Weijun; Li Hao; You Lixing; Wang Zhen; Lo Hoi-Kwong; Chen Teng-Yun; Xu Feihu; Pan Jian-Wei;
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Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Toronto, Dept Elect & Comp Engn, CQIQC, Toronto, ON M5S 3G4, Canada|Univ Toronto, Dept Phys, Toronto, ON M5S 3G4, Canada;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Chinese Acad Sci, Shanghai Inst Microsyst & Informat Technol, State Key Lab Funct Mat Informat, Shanghai 200050, Peoples R China;

Chinese Acad Sci, Shanghai Inst Microsyst & Informat Technol, State Key Lab Funct Mat Informat, Shanghai 200050, Peoples R China;

Chinese Acad Sci, Shanghai Inst Microsyst & Informat Technol, State Key Lab Funct Mat Informat, Shanghai 200050, Peoples R China;

Chinese Acad Sci, Shanghai Inst Microsyst & Informat Technol, State Key Lab Funct Mat Informat, Shanghai 200050, Peoples R China;

Univ Toronto, Dept Elect & Comp Engn, CQIQC, Toronto, ON M5S 3G4, Canada|Univ Toronto, Dept Phys, Toronto, ON M5S 3G4, Canada;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

Univ Sci & Technol China, Hefei Natl Lab Phys Sci Microscale, Shanghai Branch, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Dept Modern Phys, Shanghai 201315, Peoples R China|Univ Sci & Technol China, CAS Ctr Excellence, Shanghai 201315, Peoples R China|Univ Sci & Technol China, Synerget Innovat Ctr Quantum Informat & Quantum P, Shanghai 201315, Peoples R China;

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1. Experimental Demonstration of High-Rate Measurement-Device-Independent Quantum Key Distribution over Asymmetric Channels [J] . Liu Hui, Wang Wenyuan, Wei Kejin, Physical review letters . 2019,第16期

机译：在不对称通道上的高速测量装置无关量子密钥分布的实验证明
2. Asymmetric Protocols for Scalable High-Rate Measurement-Device-Independent Quantum Key Distribution Networks [J] . Wenyuan Wang, Feihu Xu, Hoi-Kwong Lo Physical Review X . 2019,第4期

机译：可扩展的高速测量 - 无关的量子密钥分配网络的不对称协议
3. Proof-of-principle experimental demonstration of twin-field quantum key distribution over optical channels with asymmetric losses [J] . Zhong Xiaoqing, Wang Wenyuan, Qian Li, Npj Quantum Information . 2021,第1期

机译：使用不对称损耗的光学通道的双场量子密钥分布的原则上的原理实验证明
4. Proof-of-Principle Experimental Demonstration of Twin-Field Quantum Key Distribution over Asymmetric Channels [C] . Xiaoqing Zhong, Wenyuan Wang, Li Qian, Conference on Lasers and Electro-Optics . 2020

机译：非对称通道上双场量子密钥分布的原理证明实验证明
5. Experimental realization of decoy state polarization encoding measurement-device-independent quantum key distribution. [D] . Liao, Zhongfa. 2013

机译：诱饵状态极化编码与测量设备无关的量子密钥分布的实验实现。
6. Measurement-Device-Independent Quantum Key Distribution over asymmetric channel and unstable channel [O] . Xiao-Long Hu, Yuan Cao, Zong-Wen Yu, -1

机译：非对称通道和不稳定通道上与测量设备无关的量子密钥分配
7. Experimental Demonstration of High-Rate Measurement-Device-Independent Quantum Key Distribution over Asymmetric Channels [O] . Hui Liu, Wenyuan Wang, Kejin Wei, 2019

机译：在不对称通道上的高速测量装置无关量子密钥分布的实验证明

Experimental Demonstration of High-Rate Measurement-Device-Independent Quantum Key Distribution over Asymmetric Channels

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