Tripartite Quantum Key Distribution Implemented with Imperfect Sources

3区 物理与天体物理 Q1 Materials Science
Comfort Sekga, M. Mafu
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引用次数: 2

Abstract

Multipartite quantum key distribution (QKD) is a promising area of quantum networks that provides unconditional secret keys among multiple parties, enabling only legitimate users to decrypt the encrypted message. However, security proofs of existing multipartite QKD typically assume perfect state preparation devices of legitimate users and neglect the relative rotation of reference frames. These presumptions are, nevertheless, very difficult to meet in practice, and thus the security of current multipartite QKD implementations is not guaranteed. By combining the idea of a loss tolerant technique, introduced by Tamaki et al. (K. Tamaki et al., Phys. Rev. A, 90, 052314, 2014), and the concept of a reference frame-independent protocol, we propose a three-party QKD protocol that considers state preparation flaws and the slow drift of reference frames. Through a numerical simulation, the influence of misaliged reference frames on the protocol’s stability was examined by drifting reference frames through angles β=π/5, β=π/6 and β=π/7. In addition, the performance of the proposed protocol was examined for the encoding flaws set at δ=0.35, δ=0.20, and δ=0.10. The results show that the protocol is robust against state preparation flaws, and is insignificantly impacted by misalignment of the reference frames because the achieved transmission distances and secret key rates are comparable to the perfect scenarios. This work dramatically contributes toward the realization of practical and secure multipartite QKD. The proposed protocol has direct applications in quantum communication network environments that involve unknown and slowly varying reference frames, web conferences, and online communications.
不完全源下的三方量子密钥分发
多方量子密钥分发(QKD)是量子网络中一个很有前途的领域,它在多方之间提供无条件的秘密密钥,使只有合法用户才能解密加密的消息。然而,现有的多方QKD安全证明通常假设合法用户的完美状态准备设备,忽略了参照系的相对旋转。然而,这些假设在实践中很难满足,因此当前多方QKD实现的安全性得不到保证。通过结合Tamaki et al. (K. Tamaki et al., Phys.)提出的损失容忍技术的思想。Rev. A, 90, 052314, 2014),以及参考帧无关协议的概念,我们提出了一个考虑状态准备缺陷和参考帧缓慢漂移的三方QKD协议。通过数值模拟,通过β=π/5、β=π/6和β=π/7角度漂移参考系,考察了失调参考系对协议稳定性的影响。此外,在δ=0.35, δ=0.20和δ=0.10的编码缺陷设置下,测试了所提出协议的性能。结果表明,该协议对状态准备缺陷具有鲁棒性,并且由于实现的传输距离和密钥速率与完美场景相当,因此受参考帧不对齐的影响不大。这项工作为实现实用和安全的多方QKD做出了巨大贡献。所提出的协议在涉及未知和缓慢变化的参考帧、网络会议和在线通信的量子通信网络环境中具有直接应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Progress in Optics
Progress in Optics 物理-光学
CiteScore
4.50
自引率
0.00%
发文量
8
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