Quantum Message Distribution
The semiquantum techniques have been explored recently to bridge the classical communications and the quantum communications. In this paper, we present one scheme to distribute the messages from one quantum participate to one weak quantum participate who can only measure the quantum states. It is pr...
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Published in | Communications in theoretical physics Vol. 59; no. 1; pp. 37 - 42 |
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Main Author | |
Format | Journal Article |
Language | English |
Published |
2013
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Abstract | The semiquantum techniques have been explored recently to bridge the classical communications and the quantum communications. In this paper, we present one scheme to distribute the messages from one quantum participate to one weak quantum participate who can only measure the quantum states. It is proved to be robust by combining the classical coding encryption, quantum coding and other quantum techniques. |
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AbstractList | The semiquantum techniques have been explored recently to bridge the classical communications and the quantum communications. In this paper, we present one scheme to distribute the messages from one quantum participate to one weak quantum participate who can only measure the quantum states. It is proved to be robust by combining the classical coding encryption, quantum coding and other quantum techniques. |
Author | 罗明星 陈秀波 邓云 杨义先 |
AuthorAffiliation | InformationSecurityLaboratoryjSchoolofInformationScienceandTechnology,SouthwestJiaotongUniversity,Chengdu610031,China InformationSecurityCenter,BeijingUniversityofPostsandTelecommunications,Bering100876,China |
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Notes | quantum key distribution, quantum message distribution, robustness The semiquantum techniques have been explored recently to bridge the classical communications and the quantum communications. In this paper, we present one scheme to distribute the messages from one quantum participate to one weak quantum participate who can only measure the quantum states. It is proved to be robust by combining the classical coding encryption, quantum coding and other quantum techniques. 11-2592/O3 LUO Ming-Xing , CHEN Xiu-Bo , DENG Yun , and Yang Yi-Xian ( 1Information Security Laboratory, School of Information Science and Technology, Southwest Jiaotong University Chengdu 610031, China 2Information Security Center, Beijing University of Posts and Telecommunications, Beijing 100876, China) ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23 |
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References | 22 23 C.H. Bennett (7) 1992; 5 24 27 28 29 C.H. Bennett (1) 1984 A. Beigea (11) 2002; 101 M.X. Luo (25) 2010; 43 30 31 32 33 12 34 13 35 14 36 15 M.X. Luo (26) 37 17 39 18 19 S. Zhang (10) 2011; 56 J.S. Bell (9) 1964; 1 Y.G. Tan (40) 2009; 102 2 C.E. Shannon (38) 1948; 27 3 Z.X. Man (16) 2006; 39 4 5 6 8 20 21 |
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SubjectTerms | Coding Encryption Messages Theoretical physics 信息分配 技术 量子态 量子编码 量子通信 |
Title | Quantum Message Distribution |
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