[1] Bennett C H, Brassard G. Quantum cryptography: Public key distribution and coin tossing
[C]. In Processing of the IEEE International Conference on Computers, Systems, and Signal Processing, Bangalore, India, New York: IEEE 1984,175-179.
[2] Gobby C, Yuan Z L, Shields A J. Quantum key distribution over 122 km of standard telecom fiber
[J]. Applied Physics Letters,2004,84(19):3762-3763.
[3] Mo X F, Zhu B, Han Z F, et al. Faraday-Michelson system for quantum cryptography
[J]. Optics Letters, 2005,30(19):2632-2634.
[4] Takesue H, Diamanti E, Honjo T, et al. Differential phase shift quantum key distribution experiment over 105km fibre
[J]. New Journal of Physics,2005,7(232):1-2.
[5] Rosenberg D, Harrington J W, Rice P R, et al. Long-Distance Decoy-State Quantum Key Distribution in Optical Fiber
[J]. Physics Review Letters,2007,98(1):010503.
[6] Zhu A D, Zhang S. Quantum key distribution and controlled quantum direct communication applying product state of qurtit
[J]. Chinese journal of quantum electronics(量子电子学报),2007,24(3):316.
[7] 傅明星.路径攻击对量子密钥分发网络安全影响
[J].量子电子学报, 2008,25(5):572. Fu M X. Influence of path-attack on security of quantum key distribution networks
[J]. Chinese journal of quantum electronics,2008,25(5):572(in Chinese).
[8] Townsend P D. Quantum Cryptography on Optical Fiber Networks
[J]. Optical Fiber Technology, 1998,4: 345-370.
[9] Elliott C. Building the quantum network
[J]. New Journal of Physics, 2002,4(46):1-12.
[10] 傅明星,赵峰,路轶群,等.量子密钥分发网络应用技术研究进展
[J]. 激光与光电子学进展,2007,44(10):39-47. Fu M X, Zhao F, Lu Y Q, et al. Progress of Practical Quantum Key Distribution Network
[J]. Laser&Optoelectronics Progress,2007,44(10):39-47(in Chinese).
[11] Chen W, Han Z F, Zhang T, et al. Field Experimental “Star Type” Metropolitan Quantum Key Distribution Network. arXiv:0708.3546v1
[quant-ph], http://arxiv.org/abs/0708.3546
[12] Fernandez V,Collins R J,Gordon K J,et al. Passive Optical Network Approach to Gigahertz-Clocked Multiuser Quantum Key Distribution
[J]. IEEE Journal of Quantum Electronics, 2007,43(2):130-137.
[13] Honjo T, Inoue K, Sahara A, et al. Quantum key distribution experiment through a PLC matrix switch
[J]. Optics Communications, 2006,263:120-123.
[14] Toliver P, Runser R J, Chapuran T E, et al. Experimental Investigation of Quantum Key Distribution Through Transparent Optical Switch Elements
[J]. IEEE Photonics Technology Letters, 2003,15(11): 1669-1671.
[15] Zhao B, Chen Z B, Chen Y A, et al. Robust Creation of Entanglement between Remote Memory Qubits
[J]. Physics Review Letters, 2007,98(240502):1-3.
[16] Valiev K A. Quantum computers and quantum computations
[J]. Physics-Uspekhi,2005,48(1):1-36.
[17] Gordon K J, Fernandez V, Townsend P D, et al. A short wavelength gigahertz clocked fiber-optic quantum key distribution system
[J]. IEEE Journal of Quantum Electronics,2004,40(7):900-908.
[18] Lütkenhaus N. Security against individual attacks for realistic quantum key distribution
[J]. Physics Review A, 2000, 61(5):052304.
[19] Lo H K, Ma X F, Chen K. Decoy State Quantum Key Distribution
[J]. Physics Review Letters, 2005,94(23): 230504.
[20] 赵峰.实用量子密钥分配系统与分配算法及技术实现
[D].广州:华南师范大学,2008,p65-79. Zhao F. Practical quantum key distribution system and algorithm with technic realization
[D]. Guangzhou: South China Normal University,2008,p65-79(in Chinese).
[21] Waks E, Takesue H, Yamamoto Y. Security of differential-phase-shift quantum key distribution against individual attacks
[J]. Physics Review A, 2006,73(1):012344.
[22] Ma X F, Qi B, Zhao Y et al. Practical decoy state for quantum key distribution
[J]. Physics Review A, 2005, 72(1):012326.
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