W-state-based Semi-quantum Private Comparison

被引:0
作者
Yuan Tian
Jian Li
Chongqiang Ye
Xiu-Bo Chen
Chaoyang Li
机构
[1] Beijing University of Post and Telecommunications,Information Security Center, State Key Laboratory of Networking and Switching Technology
[2] Beijing University of Post and Telecommunications,School of Artificial Intelligence
[3] Zhengzhou University of Light Industry,College of Software Engineering
来源
International Journal of Theoretical Physics | 2022年 / 61卷
关键词
Quantum cryptography; Semi-quantum private comparison; W-state; Qubit efficiency;
D O I
暂无
中图分类号
学科分类号
摘要
Semi-quantum private comparison, which authorizes two classical participants to compare the equality of their private information with the cooperation of a semi-honest third party without unveiling privacy. The W-state is more robust against the loss of any single qubit than the GHZ state. In this paper, an efficient and secure semi-quantum private comparison protocol based on W-state is proposed for the first time. The qubit efficiency comparison shows the proposed protocol is more efficient than the similar literature. Moreover, the security of the devised protocol concerning various kinds of outside attack and inside attack is discussed. The security analysis demonstrates that outside eavesdropper, inside dishonest participant and semi-honest third party cannot obtain any private information.
引用
收藏
相关论文
共 66 条
[1]  
Cabello A(2000)Quantum key distribution in the holevo limit Phys. Rev. Lett. 85 5635-2205
[2]  
Li LL(2020)Quantum key distribution based on Single-Particle and EPR entanglement Sci. China Inform. Sci. 63 256-576
[3]  
Li L(2019)Deterministic quantum secure direct communication protocol based on Omega state IEEE Access 7 6915-11
[4]  
Chang Y(2019)Quantum secret sharing with polarization-entangled photon pairs Phys. Rev. A 99 062311-undefined
[5]  
Li LL(2009)An efficient two-party quantum private comparison protocol with decoy photons and two-photon entanglement J.Phys. A Math. Theor. 42 30-undefined
[6]  
Li J(2014)Efficient and feasible quantum private comparison of equality against the collective amplitude damping noise Quantum Inf. Process. 13 101-undefined
[7]  
Li CY(2013)Quantum private comparison against decoherence noise Quantum Inf. Process. 12 2191-undefined
[8]  
Williams BP(2013)Quantum private comparison protocol based on cluster states Int. J. Theor. Phys. 52 212-undefined
[9]  
Lukens JM(2019)And Efficient quantum private comparison protocol based on the entanglement swapping between four-qubit cluster state and extended Bell state Quantum Inf. Process. 18 158-undefined
[10]  
Peters NA(2013)Cryptanalysis and improvement of the quantum private comparison protocol with semi-honest third party Quantum Inf. Process. 12 1981-undefined
1234567