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Optical Communication Technology, Volume. 44, Issue 8, 22(2020)

Noise processing technology of quantum and classical fusion communication system based on DWDM

RAN Pan1, HU Min1, and GUO Banghong2、*
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  • 2[in Chinese]
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    [1] [1] GISIN N, RIBORDY G, TITTEL W, et al. Quantum cryptography[J]. Reviews of Modern Physics, 2002, 74(1): 145-195.

    [2] [2] BENNETT C H, BRASSARD G. Quantum Cryprography: Public Key distribution and coin tossing[C]//Proceedings of IEEE International Conference on Computers, Systems and Signal Processing, December 9-12, 1984, Bangalore, India. IEEE, 1984: 175-179.

    [3] [3] MAO Y, WANG B X, ZHAO C, et al. Integrating quantum key distribution with classical communications in backbone fiber network[J]. Optics Express, 2018, 26(5): 6010-6020.

    [4] [4] INOUE K, WAKS E, YAMAMOTO Y. Differential Phase Shift Quantum Key Distribution[J]. Physical Review Letters, 2002, 89(3): 037902-1-037902-3.

    [6] [6] LO H K, MA X, CHEN K. Decoy State Quantum Key Distribution[J]. Physical Review Letters, 2005, 94(23): 230504-1-230504-4.

    [7] [7] MA X, QI B, ZHAO Y, et al. Practical decoy state for quantum key distribution[J]. Physical Review A, 2005, 72(1): 012326-1-012326-15.

    [8] [8] sium onInformation Theory (ISIT), June 27-July 2, 2004, Chicago, USA. IEEE, 2004: 325-360.

              GOTTESMAN D, LO H-K, LUTKENHAUS N, et al. Security of quantum key distribution with imperfect devices[C]//International Sympo-

    [9] [9] XU F, QI B, LO H K. Experimental demonstration of phase-remapping attack in a practical quantum key distribution system[J]. New Journal of Physics, 2010, 12(11): 113026-1-113026-14.

    [10] [10] ERAERDS P, WALENTA N, LEGRE M, et al. Quantum key distribution and 1 Gbps data encryption over a single fibre[J]. New Journal of Physics, 2010, 12(6): 063027-1-063027-15.

    [11] [11] PETERS N A, TOLIVER P, CHAPURAN T E, et al. Dense wavelength multiplexing of 1550 nm QKD with strong classical channels in reconfigurable networking environments[J]. New Journal of Physics, 2009, 11(4): 045012-1-045012-17.

    [12] [12] PATEL K A, DYNES J F, LUCAMARINI M, et al. Quantum key distribution for 10 Gb/s dense wavelength division multiplexing networks[J]. Applied Physics Letters, 2014, 104(5): 051123-1-051123-4.

    [13] [13] MORA J, AMAYA W, RUIZ-ALBA A G, et al. Simultaneous transmission of 20×2 WDM/SCM-QKD and 4 bidirectional classical channels over a PON[J]. Optics Express, 2012, 20(15): 16358-16365.

    [14] [14] SUN Y, LU Y, NIU J, et al. Reduction of FWM noise in WDM-based QKD systems using interleaved and unequally spaced channels[J]. Chinese Optics Letters, 2016, 14(6): 060602-060607.

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    RAN Pan, HU Min, GUO Banghong. Noise processing technology of quantum and classical fusion communication system based on DWDM[J]. Optical Communication Technology, 2020, 44(8): 22

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    Paper Information

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    Received: Mar. 16, 2020

    Accepted: --

    Published Online: Oct. 27, 2020

    The Author Email: Banghong GUO (guobangh@163.com)

    DOI:10.13921/j.cnki.issn1002-5561.2020.08.006

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology