Quantum High Secure Direct Communication with Authentication

2020 13th International Conference on Communications (COMM) Pub Date : 2020-06-01 DOI:10.1109/COMM48946.2020.9142030

Liliana Zisu

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引用次数: 0

Abstract

A quantum high secure direct communication with authentication protocol is proposed by using single photons. The high security of the protocol is achieved on levels. The first level involves the verification of the quantum channel security by using fake photons. The authentication process is also ensured by the fake photons. The second level of security is given by the use of multiple polarization bases. The secret message is encoded in groups of photons; each single character of the message is associated with m (m≥7) photons. Thus, at least 27 (128) characters will be encoded. In order to defeat the quantum teleportation attack, the string of bits associated to the secret message is encrypted with a secret string of bits by using XOR operator. Encryption of the sender's identity string and the receiver's identity string by the XOR operator with a random string of fake photons defends quantum man-in-the-middle attack efficiently. Quantum memory is required to implement our protocol. Storage of quantum information is a key element in quantum information processing and provides a more flexible, effective and efficient communication. Our protocol is feasible with current technologies.

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量子高安全直接通信与认证

提出了一种基于单光子认证协议的量子高安全直接通信方案。该协议的高安全性是在级别上实现的。第一层是利用假光子验证量子信道的安全性。认证过程也由假光子保证。第二级安全是通过使用多个极化基来提供的。秘密信息被编码成光子群;信息的每个单个字符与m (m≥7)个光子相关联。因此，至少27(128)个字符将被编码。为了挫败量子隐形传态攻击，使用异或运算符将与秘密消息相关的比特串加密为一个秘密比特串。用异或算子用随机的假光子串对发送方身份串和接收方身份串进行加密，有效地防御了量子中间人攻击。实现我们的协议需要量子存储器。量子信息的存储是量子信息处理的关键，它提供了一种更加灵活、有效和高效的通信方式。我们的方案在当前技术下是可行的。

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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2020 13th International Conference on Communications (COMM)

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