An efficient deterministic secure quantum communication scheme based on cluster states and identity authentication

doi:10.1088/1674-1056/18/10/007

中国物理B ›› 2009, Vol. 18 ›› Issue (10): 4105-4109.doi: 10.1088/1674-1056/18/10/007

An efficient deterministic secure quantum communication scheme based on cluster states and identity authentication

马廷淮¹, 陈汉武², 刘志昊², 胡文博², 李志强³, 刘文杰⁴

(1)School of Computer and Software, Nanjing University of Information Science and Technology, Nanjing 210044, China; (2)School of Computer Science and Engineering, Southeast University, Nanjing 210096, China; (3)School of Computer Science and Engineering, Southeast University, Nanjing 210096, China;College of Information Engineering, Yangzhou University, Yangzhou 225009, China; (4)School of Computer Science and Engineering, Southeast University, Nanjing 210096, China;School of Computer and Software, Nanjing University of Information Science and Technology, Nanjing 210044, China

收稿日期:2008-11-10 修回日期:2008-12-02 出版日期:2009-10-20 发布日期:2009-10-20
基金资助:
Project supported by the National Natural Science Foundation of China (Grant Nos 60572071 and 60873101), Natural Science Foundation of Jiangsu Province (Grant Nos BM2006504, BK2007104 and BK2008209), and College Natural Science Foundation of Jiangsu Provi

An efficient deterministic secure quantum communication scheme based on cluster states and identity authentication

Liu Wen-Jie(刘文杰)^a)b)†, Chen Han-Wu(陈汉武)^a), Ma Ting-Huai(马廷淮)^b), Li Zhi-Qiang(李志强)^a)c), Liu Zhi-Hao(刘志昊)^a), and Hu Wen-Bo(胡文博)^a)

^a School of Computer Science and Engineering, Southeast University, Nanjing 210096, China; ^b School of Computer and Software, Nanjing University of Information Science and Technology, Nanjing 210044, China; ^c College of Information Engineering, Yangzhou University, Yangzhou 225009, China

Received:2008-11-10 Revised:2008-12-02 Online:2009-10-20 Published:2009-10-20
Supported by:
Project supported by the National Natural Science Foundation of China (Grant Nos 60572071 and 60873101), Natural Science Foundation of Jiangsu Province (Grant Nos BM2006504, BK2007104 and BK2008209), and College Natural Science Foundation of Jiangsu Provi

摘要/Abstract

摘要： A novel efficient deterministic secure quantum communication scheme based on four-qubit cluster states and single-photon identity authentication is proposed. In this scheme, the two authenticated users can transmit two bits of classical information per cluster state, and its efficiency of the quantum communication is 1/3, which is approximately 1.67 times that of the previous protocol presented by Wang et al [Chin. Phys. Lett. 23 (2006) 2658]. Security analysis shows the present scheme is secure against intercept-resend attack and the impersonator's attack. Furthermore, it is more economic with present-day techniques and easily processed by a one-way quantum computer.

Abstract: A novel efficient deterministic secure quantum communication scheme based on four-qubit cluster states and single-photon identity authentication is proposed. In this scheme, the two authenticated users can transmit two bits of classical information per cluster state, and its efficiency of the quantum communication is 1/3, which is approximately 1.67 times that of the previous protocol presented by Wang et al [Chin. Phys. Lett. 23 (2006) 2658]. Security analysis shows the present scheme is secure against intercept-resend attack and the impersonator's attack. Furthermore, it is more economic with present-day techniques and easily processed by a one-way quantum computer.

Key words: deterministic secure quantum communication, cluster state, identity authentication

中图分类号: (Quantum communication)

03.67.Hk

03.67.Dd (Quantum cryptography and communication security) 03.67.Lx (Quantum computation architectures and implementations) 84.40.Ua (Telecommunications: signal transmission and processing; communication satellites)

刘文杰, 陈汉武, 马廷淮, 李志强, 刘志昊, 胡文博. An efficient deterministic secure quantum communication scheme based on cluster states and identity authentication[J]. 中国物理B, 2009, 18(10): 4105-4109.

Liu Wen-Jie(刘文杰), Chen Han-Wu(陈汉武), Ma Ting-Huai(马廷淮), Li Zhi-Qiang(李志强), Liu Zhi-Hao(刘志昊), and Hu Wen-Bo(胡文博). An efficient deterministic secure quantum communication scheme based on cluster states and identity authentication[J]. Chin. Phys. B, 2009, 18(10): 4105-4109.

[1]	Zengte Zheng(郑增特), Ziyang Chen(陈子扬), Luyu Huang(黄露雨),Xiangyu Wang(王翔宇), and Song Yu(喻松). Performance analysis of quantum key distribution using polarized coherent-states in free-space channel[J]. 中国物理B, 2023, 32(3): 30306-030306.
[2]	Bao Feng(冯宝), Hai-Dong Huang(黄海东), Yu-Xiang Bian(卞宇翔), Wei Jia(贾玮), Xing-Yu Zhou(周星宇), and Qin Wang(王琴). Security of the traditional quantum key distribution protocolswith finite-key lengths[J]. 中国物理B, 2023, 32(3): 30307-030307.
[3]	Haiqiang Ma(马海强), Yanxin Han(韩雁鑫), Tianqi Dou(窦天琦), and Pengyun Li(李鹏云). Performance of phase-matching quantum key distribution based on wavelength division multiplexing technology[J]. 中国物理B, 2023, 32(2): 20304-020304.
[4]	Wenhao Zhao(赵文浩) and Min Jiang(姜敏). Novel traveling quantum anonymous voting scheme via GHZ states[J]. 中国物理B, 2023, 32(2): 20303-020303.
[5]	Yan-Ling Li(李艳玲), Yi-Bo Zeng(曾艺博), Lin Yao(姚林), and Xing Xiao(肖兴). Improving the teleportation of quantum Fisher information under non-Markovian environment[J]. 中国物理B, 2023, 32(1): 10303-010303.
[6]	Dan Wu(吴丹), Xiao Li(李骁), Liang-Liang Wang(王亮亮), Jia-Shun Zhang(张家顺), Wei Chen(陈巍), Yue Wang(王玥), Hong-Jie Wang(王红杰), Jian-Guang Li(李建光), Xiao-Jie Yin(尹小杰), Yuan-Da Wu(吴远大), Jun-Ming An(安俊明), and Ze-Guo Song(宋泽国). Temperature characterizations of silica asymmetric Mach-Zehnder interferometer chip for quantum key distribution[J]. 中国物理B, 2023, 32(1): 10305-010305.
[7]	Jia-Wei Ying(应佳伟), Lan Zhou(周澜), Wei Zhong(钟伟), and Yu-Bo Sheng(盛宇波). Measurement-device-independent one-step quantum secure direct communication[J]. 中国物理B, 2022, 31(12): 120303-120303.
[8]	Xiao-Ming Chen(陈小明), Lei Chen(陈雷), and Ya-Long Yan(阎亚龙). Detecting the possibility of a type of photon number splitting attack in decoy-state quantum key distribution[J]. 中国物理B, 2022, 31(12): 120304-120304.
[9]	Jian-Shuang Liu(刘建双), Ya Yang(杨亚), Jing Lu(卢竞), and Lan Zhou(周兰). Quantum routing of few photons using a nonlinear cavity coupled to two chiral waveguides[J]. 中国物理B, 2022, 31(11): 110301-110301.
[10]	Tao Liu(刘涛), Shuo Zhao(赵硕), Ivan B. Djordjevic, Shuyu Liu(刘舒宇), Sijia Wang(王思佳), Tong Wu(吴彤), Bin Li(李斌), Pingping Wang(王平平), and Rongxiang Zhang(张荣香). Analysis of atmospheric effects on the continuous variable quantum key distribution[J]. 中国物理B, 2022, 31(11): 110303-110303.
[11]	Xing-Xing Ju(居星星), Wei Zhong(钟伟), Yu-Bo Sheng(盛宇波), and Lan Zhou(周澜). Measurement-device-independent quantum secret sharing with hyper-encoding[J]. 中国物理B, 2022, 31(10): 100302-100302.
[12]	Lingzhi Kong(孔令志), Weiqi Liu(刘维琪), Fan Jing(荆凡), Zhe-Kun Zhang(张哲坤), Jin Qi(齐锦), and Chen He(贺晨). Improvement of a continuous-variable measurement-device-independent quantum key distribution system via quantum scissors[J]. 中国物理B, 2022, 31(9): 90304-090304.
[13]	Hengji Li(李恒吉), Jian Li(李剑), and Xiubo Chen(陈秀波). Probabilistic quantum teleportation of shared quantum secret[J]. 中国物理B, 2022, 31(9): 90303-090303.
[14]	A-Peng Liu(刘阿鹏), Liu-Yong Cheng(程留永), Qi Guo(郭奇), Shi-Lei Su(苏石磊), Hong-Fu Wang(王洪福), and Shou Zhang(张寿). Direct measurement of two-qubit phononic entangled states via optomechanical interactions[J]. 中国物理B, 2022, 31(8): 80307-080307.
[15]	Jin Xu(徐瑾), Xiaoguang Chen(陈晓光), Rong Zhang(张蓉), and Hanwei Xiao(肖晗微). Purification in entanglement distribution with deep quantum neural network[J]. 中国物理B, 2022, 31(8): 80304-080304.

An efficient deterministic secure quantum communication scheme based on cluster states and identity authentication

An efficient deterministic secure quantum communication scheme based on cluster states and identity authentication

PDF (PC)

赞

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

Metrics

本文评价

推荐阅读 0