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Practical scheme to share a secret key through a quantum channel with a 27.6 bit error rate

机译：通过具有27.6％误码率的量子信道共享密钥的实用方案

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摘要

A secret key shared through quantum key distribution between two cooperative players is secure against any eavesdropping attack allowed by the laws of physics. Yet, such a key can be established only when the quantum channel error rate due to eavesdropping or imperfect apparatus is low. Here, a practical quantum key distribution scheme by making use of an adaptive privacy amplification procedure with two-way classical communication is reported. Then, it is proven that the scheme generates a secret key whenever the bit error rate of the quantum channel is less than 0.5-0.1sqrt[5]≈27.6%, thereby making it the most error resistant scheme known to date.

机译：通过两个合作参与者之间的量子密钥分配共享的秘密密钥可以安全地防止物理定律允许的任何窃听攻击。然而，只有在由于窃听或不完善的设备导致的量子信道错误率较低时才能建立这样的密钥。在此，报告了一种实用的量子密钥分配方案，该方案通过利用具有双向经典通信的自适应隐私放大程序来实现。然后，证明了该方案每当量子通道的误码率小于0.5-0.1sqrt [5]≈27.6％时都会生成一个秘密密钥，从而使其成为迄今为止已知的最耐错误的方案。

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Chau HF;
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年度 2002
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正文语种 eng
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1. Practical scheme to share a secret key through a quantum channel with a 27.6% bit error rate - art. no. 060302 [J] . Chau HF. Physical Review, A. Atomic, molecular, and optical physics . 2002,第6期

机译：通过量子信道以27.6％的误码率共享秘密密钥的实用方案-art。没有。 060302
2. Floodlight quantum key distribution: A practical route to gigabit-per-second secret-key rates [J] . Zhuang Quntao, Zhang Zheshen, Dove Justin, Physical Review, A . 2016,第1aPta1期

机译：Floodlight量子密钥分发：达到每秒千兆比特秘密密钥速率的实用途径
3. Floodlight quantum key distribution: A practical route to gigabit-per-second secret-key rates [J] . Zhuang Quntao, Zhang Zheshen, Dove Justin, Physical Review, A . 2016,第1aPta1期

机译：泛光灯量子密钥分布：到千兆间秘密密钥率的实用路线
4. Bounds on secret key rates in fading channels under practical channel estimation schemes [C] . McGuire Michael, Movahedian Alireza IEEE International Conference on Communications . 2014

机译：实际信道估计方案下衰落信道中秘密密钥速率的界限
5. LDPC-based secret-sharing schemes for wiretap channels [D] . Wong, Chan Wong 2011

机译：基于LDPC的窃听通道的秘密共享方案
6. N-dimensional measurement-device-independent quantum key distribution with N + 1 un-characterized sources: zero quantum-bit-error-rate case [O] . Won-Young Hwang, Hong-Yi Su, Joonwoo Bae -1

机译：具有N + 1个未表征源的N维测量设备无关的量子密钥分布：零量子误码率情况
7. Practical Scheme To Share A Secret Key Through An Up To 27.6% Bit Error Rate Quantum Channel [O] . Chau, H. F. 2002

机译：通过高达27.6％的误码率共享密钥的实用方案速率量子通道

Practical scheme to share a secret key through a quantum channel with a 27.6 bit error rate

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