Information Leakage Prevention in Quantum Dialogue Using the Measurement Correlation after Entanglement Swapping and Decreasing the Transmission Efficiency

YE Tianyu; JIANG Lizhen

doi:10.3788/gzxb20134211.1311

[1] BENNETT C H, BRASSARD G. Quantum cryptography: publickey distribution and coin tossing［C］. Proceedings of the IEEE International Conference on Computers Systems and Signal Processing, Bangalore, India,1984, 11: 175-179.

[2] BENNETT C H, BRASSARD G, MERMIN N D.Quantum cryptography without Bell theorem［J］. Physical Review Letters,1992, 68(5): 557-559.

[3] CABELLO A. Quantum key distribution in the Holevo limit［J］. Physical Review Letters,2000, 85(26): 5635-5638.

[4] LONG G L, LIU X S. Theoretically efficient highcapacity quantumkeydistribution scheme［J］. Physical Review A, 2002, 65(3): 032302.

[5] BEIGE A, ENGLERT B G, KURTSIEFER C,et al. Secure communication with a publicly known key［J］. Acta Physica Polonica A, 2002, 101(3): 357-368.

[6] BOSTROM K, FELBINGER T. Deterministic secure direct communication using entanglement［J］. Physical Review Letters, 2002, 89(18): 187902.

[7] DENG F G, LONG G L, LIU X S. Twostep quantum direct communication protocol using the EinsteinPodolskyRosen pair block［J］. Physical Review A, 2003, 68(4): 042317.

[8] CAI Q Y, LI B W. Improving the capacity of the BostromFelbinger protocol［J］. Physical Review A, 2004, 69(5): 054301.

[9] WANG C, DENG F G, LONG G L. Multistep quantum secure direct communication using multiparticle GreenHorne Zeilinger state［J］. Optics Communications, 2005, 253(13): 15-20.

[10] CHEN X B, WEN Q Y, GUO F Z, et al. Controlled quantum secure direct communication with W state［J］. International Journal of Quantum Information,2008, 6(4): 899-906.

[11] ZHANG Z J, MAN Z X. Secure direct bidirectional communication protocol using the EinsteinPodolskyRosen pair block. arXiv:quantph/0403215v1,2004.

[12] ZHANG Z J, MAN Z X. Secure bidirectional quantum communication protocol without quantum channel. arXiv:quantph/0403217v4, 2004.

[13] ZHANG Z J, MAN Z X, LI Y. Economically improving messageunilaterallytransmitted quantum secure direct communication to realize twoway communication. arXiv:quantph/0406181v1, 2004.

[14] NGUYEN B A. Quantum dialogue［J］.Physics Letters A, 2004, 328(1): 6-10.

[15] MAN Z X, ZHANG Z J, LI Y. Quantum dialogue revisited［J］. Chinese Physics Letters,2005, 22(1): 22-24.

[16] JIN X R, JI X, ZHANG Y Q,ZHANG S, et al. Threeparty quantum secure direct communication based on GHZ states［J］. Physics Letters A, 2006, 354(12): 67-70.

[17] MAN Z X, XIA Y J. Controlled bidirectional quantum direct communication by using a GHZ state［J］. Chinese Physics Letters, 2006,23(7): 1680-1682.

[18] MAN Z X, XIA Y J. Improvement of security of threeparty quantum secure direct communication based on GHZ states［J］. Chinese Physics Letters,2007, 24(1): 15-18.

[19] CHEN Y, MAN Z X, XIA Y J. Quantum bidirectional secure direct communication via entanglement swapping［J］.Chinese Physics Letters,2007, 24(1): 19-22.

[20] YANG Y G, WEN Q Y. Quasisecure quantum dialogue using single photons［J］. Science in China Series G: Physics, Mechanics&Astronomy, 2007, 50(5): 558-562.

[21] XIA Y, SONG J, NIE J, et al. Controlled secure quantum dialogue using a pure entangled GHZ states［J］. Communications in Theoretical Physics, 2007, 48(5): 841-846.

[22] GAO F, QIN S J, WEN Q Y, et al. Comment on: “Threeparty quantum secure direct communication based on GHZ states”［J］.Physics Letters A,2008, 372(18): 3333-3336.

[23] SHI G F, XI X Q, TIAN X L, et al. Bidirectional quantum secure communication based on a shared private Bell state［J］. Optics Communications,2009, 282(12): 2460-2463.

[24] SHI G F, XI X Q, HU M L, et al. Quantum secure dialogue by using single photons［J］. Optics Communications,2010, 283(9): 1984-1986.

[25] SHI G F. Bidirectional quantum secure communication scheme based on Bell states and auxiliary particles［J］.Optics Communications,2010, 283(24): 5275-5278.

[26] YE T Y, JIANG L Z. Improvement of controlled bidirectional quantum direct communication using a GHZ state［J］. Chinese Physics Letters,2013, 30(4): 040305.

[27] LIU Z H,CHEN H W. Comment on“Improvement of controlled bidirectional quantum direct communication using a GHZ state”［Chin Phys Lett 30 (2013) 040305］［J］.Chinese Physics Letters,2013, 30(7): 079901.

[28] YE T Y, JIANG L Z. Reply to comment on“Improvement of controlled bidirectional quantum direct communication using a GHZ state”［Chin Phys Lett 30 (2013) 040305］［J］.Chinese Physics Letters, 2013, 30(7): 079902.

[29] YE T Y, JIANG L Z. Quantum steganography with a large payload based on dense coding and entanglement swapping of GreenbergerHorneZeilinger states［J］.Chinese Physics B, 2013, 22(5): 050309.