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Active phase compensation of quantum key distribution system 被引量:25

Active phase compensation of quantum key distribution system
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摘要 Quantum key distribution (QKD) system must be robust enough in practical communication. Besides birefringence of fiber, system performance is notably affected by phase drift. The Faraday-Michelson QKD system can auto-compensate the birefringence of fiber, but phase shift is still a serious problem in its practical operation. In this paper, the major reason of phase drift and its effect on Faraday- Michel- son QKD system is analyzed and an effective active phase compensation scheme is proposed. By this means, we demonstrate a quantum key distribution system which can stably run over 37-km fiber in practical working condition with the long-time averaged quantum bit error rate of 1.59% and the stan- dard derivation of 0.46%. This result shows that the active phase compensation scheme is suitable to be used in practical QKD systems based on double asymmetric interferometers without additional de- vices and thermal controller. Quantum key distribution (QKD) system must be robust enough in practical communication. Besides birefringence of fiber, system performance is notably affected by phase drift. The Faraday-Michelson QKD system can auto-compensate the birefringence of fiber, but phase shift is still a serious problem in its practical operation. In this paper, the major reason of phase drift and its effect on Faraday- Michelson QKD system is analyzed and an effective active phase compensation scheme is proposed. By this means, we demonstrate a quantum key distribution system which can stably run over 37-km fiber in practical working condition with the long-time averaged quantum bit error rate of 1.59% and the standard derivation of 0.46%. This result shows that the active phase compensation scheme is suitable to be used in practical QKD systems based on double asymmetric interferometers without additional devices and thermal controller.
出处 《Chinese Science Bulletin》 SCIE EI CAS 2008年第9期1310-1314,共5页
基金 Supported by the National Fundamental Research Program of China (Grant No. 2006CB921900) National Natural Science Foundation of China (Grant Nos. 60537020 and 60621064) Knowledge Innovation Project of Chinese Academy of Sciences
关键词 量子键分布 法拉第-迈克逊系统 相位转移 相位补偿 quantum key distribution, Faraday-Michelson system, phase drift, active phase compensation
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  • 1Charles H. Bennett,Fran?ois Bessette,Gilles Brassard,Louis Salvail,John Smolin.Experimental quantum cryptography[J].Journal of Cryptology.1992(1) 被引量:1
  • 2Bennett C H,,Brassard G.Quantum cryptography: Public key distri- bution and coin tossing[].Proceedings of International Conference on Computers Systems and Signal Processing.1984 被引量:1
  • 3Hughes R,Morgan G,Peterson C.Practical quantum key distribution over a 48-km optical fiber network[].Journal of Modern Optics.2000 被引量:1
  • 4Mo X F,,Zhu Bing,Han Z F, et al.Faraday-Michelson system for quantum cryptography[].Optics Letters.2005 被引量:1
  • 5Gisin N,Ribordy G,Tittel W, et al.Quantum cryptography[].Reviews of Modern Physics.2002 被引量:1
  • 6Han Z F,Mo X F, et al.Stability of phase-modulated quantum key distribution systems[].Applied Physics Letters.2005 被引量:1
  • 7Zbinden H,Gautier J D,Gisn N, et al.Interferometry with Faraday mirrors for quantum cryptography[].Electronics Letters.1997 被引量:1
  • 8Muller A,Herzog T,Hutter B, et al."Plug and play" systems for quantum cryptography[].Applied Physics Letters.1997 被引量:1
  • 9Vakhitov A,Mkarov V, et al.Large pulse attack as a method of con- ventional optical eavesdropping in quantum cryptography[].Journal of Modern Optics.2001 被引量:1
  • 10Nambu Y,Hatanaka T,Nakamura K.BB84 quantum key distribution system based on silica-based planar lightwave circuits[].Jpn J Appl Physm.2004 被引量:1

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