[1] Bennett C H,Brassaxd G. Quantum cryptography: public key and coin tossing [C].Proceedings of the IEEE International Conference on Computer Systems and Signal Processing [M].New York: Institute of Electronics Engineers,1984.175.

[2] Mo Xiaofan,Zhu Bing,Han Zhengfu,et al. Faraday-Michelson system for quantum cryptography [J].Opt. Lett.,2005,30: 2632.

[3] Kimura T,Nambu Y,Hatanaka T,et al. Single-photon interference over 150 km transmission using silica-based interatedoptic interferometers for quantum cryptography [J].Jpn J. of Appl. Phys.,2004,43: L1217-L1219.

[4] Peng Xue,et al. Addendum to “Efficient quantum-key-distribution scheme with nonmaximally entangled states ”[J].Phys. Rev. A,2002,65(3B): 022317.

[5] Ursin R,et al. Free-space distribution of entanglement and single photons over 144 km [OL].http://arxiv.org/abs/quant-ph/0607182.

[6] Buttler W T,et al. Daylight quantum key distribution over 1.6 km [J].Phy. Rev. Lett.,2000,84: 5652.

[9] Wang Xiangbin. Beating the photon number splitting attack in practical quantum cryptography [J].Phy. Rev.Lett.,2005,94: 230503.

[13] Dagmar Bruβ. Optimal eavesdropping in quantum cryptography with six states [J].Phys. Rev. Lett.,1998,81:3018.

[14] Bechmann-Pasquinucci H,Gisin N. Incoherent and coherent eavesdropping in the six-state protocol of quantum crytpography [J].Phys. Rev. A,1999,59: 4238.

[16] Liu Xiaobao,et al. Polarization states encoded by phase modulation for high bit rate quantum key distribution[J].Phys. Lett. A,2006,358: 386.