Authenticated quantum key agreement based on cluster states against collective noise

被引:0
作者
Zhang, Li [1 ]
Han, Zhaowei [1 ]
Ma, Qiuyu [1 ]
Li, Lele [1 ]
机构
[1] Shaanxi Normal Univ, Sch Math & Stat, Xian 710119, Shaanxi, Peoples R China
来源
PHYSICA SCRIPTA | 2024年 / 99卷 / 07期
基金
中国国家自然科学基金;
关键词
quantum cryptography; quantum key agreement; collective noise; cluster state; qubit efficiency; BELL STATES; ENTANGLEMENT;
D O I
10.1088/1402-4896/ad514c
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
Quantum key agreement (QKA) is an important branch of quantum cryptography. Particles are easily affected by noise in quantum channel transmission, which provides a cover for eavesdropper Eve to attack maliciously and eventually leads to the protocol failure. In this paper, based on the properties of four-particle cluster states and their entanglement swapping, two authenticated two-party QKA protocols that can resist collective noise (collective-dephasing noise and collective-rotation noise) by using CZ, CNOT, and Pauli operations are designed, respectively. Besides, both parties can authenticate each other's identities, which makes our protocol more secure. In addition, security analysis shows that these two protocols can resist various attacks from inside and outside, such as participant attacks and entangle-measure attacks.
引用
收藏
页数:22
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  • [31] Multi-party quantum key agreement with bell states and bell measurements
    Shi, Run-Hua
    Zhong, Hong
    [J]. QUANTUM INFORMATION PROCESSING, 2013, 12 (02) : 921 - 932
  • [32] Chip-Based Quantum Key Distribution against Trojan-Horse Attack
    Tan, Han
    Li, Wei
    Zhang, Likang
    Wei, Kejin
    Xu, Feihu
    [J]. PHYSICAL REVIEW APPLIED, 2021, 15 (06)
  • [33] Quantum Key Agreement Protocols Immune to Collective Noise
    Tang Jie
    Shi Lei
    Wei Jiahua
    Yu Huicun
    Wu Tianxiong
    Xue Yang
    [J]. LASER & OPTOELECTRONICS PROGRESS, 2020, 57 (17)
  • [34] Secure mutual authentication quantum key agreement scheme for two-party setting with key recycling
    Wang, Chaonan
    Zhang, Qian
    Liang, Shufan
    Zhu, Hongfeng
    [J]. QUANTUM INFORMATION PROCESSING, 2024, 23 (04)
  • [35] Quantum key agreement with Bell states and Cluster states under collective noise channels
    Wang, Sha-Sha
    Jiang, Dong-Huan
    Xu, Guang-Bao
    Zhang, Yong-Hua
    Liang, Xiang-Qian
    [J]. QUANTUM INFORMATION PROCESSING, 2019, 18 (06)
  • [36] Multiparty semiquantum key agreement with d-level single-particle states
    Xu, Tian-Jie
    Gan, Zhi-Gang
    Ye, Tian-Yu
    [J]. PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS, 2023, 625
  • [37] A Novel Three-Party Mutual Authentication Quantum Key Agreement Protocol with GHZ States
    Xu, Yuguang
    Wang, Chaonan
    Cheng, Kefan
    Zhu, Hongfeng
    [J]. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS, 2022, 61 (10)
  • [38] A Tree-type Multiparty Quantum Key Agreement Protocol Against Collusive Attacks
    Yang, Hao
    Lu, Songfeng
    Zhu, Jianxin
    Wu, Junjun
    Zhou, Qing
    Li, Tong
    [J]. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS, 2022, 62 (01)
  • [39] Multi-Party Quantum Key Agreement with Four-Qubit Cluster States Immune to Collusive Attack
    Yang, Mengqing
    Cao, Hao
    Zhuo, Zepeng
    [J]. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS, 2024, 63 (02)
  • [40] New quantum key agreement protocols based on cluster states
    Yang, Yu-Guang
    Li, Bo-Ran
    Kang, Shuang-Yong
    Chen, Xiu-Bo
    Zhou, Yi-Hua
    Shi, Wei-Min
    [J]. QUANTUM INFORMATION PROCESSING, 2019, 18 (03)
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