基于最大三量子位纠缠态的半量子密钥协议

Proceedings of the 7th International Conference on Communication and Information Processing Pub Date : 2021-12-16 DOI:10.1145/3507971.3507994

Han Guo, Yunxia Li, Jiahua Wei, Jie Tang

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引用次数: 0

摘要

提出了一种基于三粒子最大纠缠GHZ态的半量子密钥协议(SQKA)。在该SQKA协议中，经典方Alice和Bob只能使用经典基操作量子比特，而量子方Charlie则可以对量子比特进行完全操作。通过引入半量子方法，降低了对器件的要求。此外，各方对密钥形成的贡献是相等的。该协议可以有效抵御外部攻击甚至参与者攻击。通过效率分析，我们的协议比以前的半量子密钥协议具有更高的量子比特效率。

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Semi-quantum key agreement based on maximally three-qubit entangled states

In this paper, a semi-quantum key agreement (SQKA) protocol based on the three-particle maximally entangled GHZ state is proposed. In this SQKA protocol, the classical parties Alice and Bob can only operate the qubits with classical basis, while the quantum party Charlie has full manipulation on qubits. By introducing semi-quantum approach, the requirement for device is reduced. Moreover, each of parties has equal contribution to key formation. The protocol can effectively resist outsider attacks even participant attacks. Through the efficiency analysis, our protocol has a higher qubit efficiency than the previous semi-quantum key agreement.

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Proceedings of the 7th International Conference on Communication and Information Processing

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