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首页> 外文会议>Emerging Technologies in Security and Defence II; and Quantum-Physics-based Information Security III >An in fiber experimental approach to photonic quantum digital signatures that does not require quantum memory
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An in fiber experimental approach to photonic quantum digital signatures that does not require quantum memory

机译:一种不需要量子存储的光纤内光子量子数字签名实验方法

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摘要

Classical digital signatures are commonly used in e-mail, electronic financial transactions and other forms of electronic communications to ensure that messages have not been tampered with in transit, and that messages are transferrable. The security of commonly used classical digital signature schemes relies on the computational difficulty of inverting certain mathematical functions. However, at present, there are no such one-way functions which have been proven to be hard to invert. With enough computational resources certain implementations of classical public key cryptosystems can be, and have been, broken with current technology. It is nevertheless possible to construct information-theoretically secure signature schemes, including quantum digital signature schemes. Quantum signature schemes can be made information-theoretically secure based on the laws of quantum mechanics, while classical comparable protocols require additional resources such as secret communication and a trusted authority. Early demonstrations of quantum digital signatures required quantum memory, rendering them impractical at present. Our present implementation is based on a protocol that does not require quantum memory. It also uses the new technique of unambiguous quantum state elimination, Here we report experimental results for a test-bed system, recorded with a variety of different operating parameters, along with a discussion of aspects of the system security.
机译:经典数字签名通常用于电子邮件,电子金融交易和其他形式的电子通信中,以确保消息在传输过程中未被篡改,并且消息可以传输。常用经典数字签名方案的安全性取决于将某些数学函数求逆的计算难度。但是,目前还没有这样的单向函数,事实证明这种函数难以反转。有了足够的计算资源,经典公钥密码系统的某些实现可能会并且已经被当前技术所破坏。但是,有可能构造信息理论上安全的签名方案,包括量子数字签名方案。根据量子力学定律,可以使量子签名方案在理论上保证信息的安全,而经典的可比较协议则需要额外的资源,例如秘密通信和可信机构。量子数字签名的早期演示需要量子存储,因此目前尚不可行。我们当前的实现基于不需要量子存储器的协议。它还使用了明确的量子态消除新技术。在这里,我们报告测试平台系统的实验结果,记录了各种不同的操作参数,并讨论了系统安全性。

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  • 来源
  • 会议地点 Amsterdam(NL)
  • 作者

    Robert J. Collins; Ross J. Donaldson; Vedran Dunjko; Petros Wallden; Patrick J. Clarke; Erika Andersson; John Jeffers; Gerald S. Buller;

  • 作者单位

    Institute of Photonics Quantum Sciences and Scottish Universities Physics Alliance, School of Engineering and Physical Sciences, David Brewster Building, Gait 2, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom;

    Institute of Photonics Quantum Sciences and Scottish Universities Physics Alliance, School of Engineering and Physical Sciences, David Brewster Building, Gait 2, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom;

    Institute of Photonics Quantum Sciences and Scottish Universities Physics Alliance, School of Engineering and Physical Sciences, David Brewster Building, Gait 2, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom,School of Informatics, The University of Edinburgh, Information Forum, 10 Crichton Street, Edinburgh, EH8 9AB, United Kingdom,Laboratory of Evolutionary Genetics, Division of Molecular Biology, Ruder Boskovic Institute, Bijenicka cesta 54, 10000 Zagreb, Croatia,Institute for Quantum Optics and Quantum Information, Austrian Academy of Sciences, Technikerstr. 21 A, A-6020 Innsbruck, Austria;

    Institute of Photonics Quantum Sciences and Scottish Universities Physics Alliance, School of Engineering and Physical Sciences, David Brewster Building, Gait 2, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom;

    Institute of Photonics Quantum Sciences and Scottish Universities Physics Alliance, School of Engineering and Physical Sciences, David Brewster Building, Gait 2, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom,School of Instrumentation Science Opto-electronics Engineering, Beihang University, 37 Xueyuan Road, Haidian District, Beijing 100191, China;

    Institute of Photonics Quantum Sciences and Scottish Universities Physics Alliance, School of Engineering and Physical Sciences, David Brewster Building, Gait 2, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom;

    Department of Physics and Scottish Universities Physics Alliance, John Anderson Building, University of Strathclyde, 107 Rottenrow, Glasgow, G4 0NG, United Kingdom;

    Institute of Photonics Quantum Sciences and Scottish Universities Physics Alliance, School of Engineering and Physical Sciences, David Brewster Building, Gait 2, Heriot-Watt University, Edinburgh EH14 4AS, United Kingdom;

  • 会议组织
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Quantum communications; digital signature; cryptography; quantum memory; quantum state elimination;

    机译:量子通信;电子签名;密码学量子记忆量子态消除;

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