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远程干涉型光纤传感系统的非线性相位噪声分析

陈伟 孟洲 周会娟 罗洪

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远程干涉型光纤传感系统的非线性相位噪声分析

陈伟, 孟洲, 周会娟, 罗洪

Nonlinear phase noise analysis of long-haul interferometric fiber sensing system

Chen Wei, Meng Zhou, Zhou Hui-Juan, Luo Hong
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  • 以远程干涉型光纤传感系统为背景, 研究了系统非线性相位噪声构成, 对各构成要素的具体影响进行了详细分析和综合评价, 简要讨论了噪声抑制方案. 研究表明, 系统相位噪声主要包括强度噪声转化而来的相位噪声、非线性效应引起激光 线宽展宽导致的相位噪声以及自相位调制和交叉相位调制引入的相位噪声. 受激布里渊散射和四波混频可引入强度噪声并转化为相位噪声, 对于探测带宽较窄的光纤传感系统, 四波混频引入的该部分噪声往往可以忽略. 受激布里渊散射、四波混频和调制不稳定性都可引起激光线宽展宽从而造成相位噪声的增大. 当系统信道数目较多时, 交叉相位调制对相位噪声的贡献不可忽略. 所得结论对远程干涉型光纤传感系统的实际应用具有重要的指导意义.
    Nonlinear phase noise structure is studied in the background of long-haul interferometric fiber sensing system. The influence of each factor is analyzed and evaluated in detail, and suppression methods are discussed briefly. The results show that phase noise of the system mainly includes the phase noise converted from intensity noise, the phase noise caused by nonlinear effects induced laser linewidth variations as well as the phase noise introduced by self phase modulation and cross phase modulation. Stimulated Brillouin scattering and four-wave mixing can cause intensity noise and then it turns into phase noise. For the fiber sensing system which has a narrow detecting bandwidth, the corresponding noise induced by four-wave mixing can always be neglected. Stimulated Brillouin scattering, four-wave mixing and modulation instability can cause laser linewidth broadening, leading to the increase of phase noise. When the number of channels is large, the phase noise introduced by cross phase modulation cannot be ignored. The obtained results provide a good guidance for the practical applications of long-haul interferometric fiber sensing systems.
    • 基金项目: 国家自然科学基金(批准号: 61177073);光电信息与传感技术广东普通高 校重点实验室开放研究基金(批准号: gdol201101); 湖南省研究生创新基金(批准号: CX2011B033)和国防科学技术大学研究生院创 新基金(批准号: B110703)资助的课题.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 61177073), the Open Fund of Key Laboratory of Optoelectronic Information and Sensing Technologies of Guangdong Higher Education Institutes, Jinan University, China (Grant No. gdol201101), Hunan Provincial Innovation Foundation for Postgraduate, China (Grant No. CX2011B033) and the Fund of Innovation of Graduate School of NUDT, China (Grant No. B110703).
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    Chen W, Meng Z 2012 Chin. Opt. Lett. 10 020603

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    Forghieri F, Tkach R W, Chraplyvy A R 1995 J. Lightwave Technol. 13 889

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  • [1]

    Crickmore R, Cranch G A, Kirkendall C K, Daley K, Motley S, Bautista A, Salzano J, Nash P 2003 IEEE Photon. Technol. Lett. 10 1579

    [2]

    Clay K K, Dandrige A 2004 J. Phys. D: Appl. Phys. 37 197

    [3]

    Kringlebotn J T, Naksrtad H, Eriksrud M 2009 Proc. SPIE 7503 75037U

    [4]

    Nash P, Strudley A, Crickmore R, DeFreitas J 2009 Proc. SPIE 7503 75037T

    [5]

    Zhang J, Pan W, Yan L S, Luo B 2010 Acta Phys. Sin. 59 7002 (in Chinese) [张婧, 潘炜, 闫连山, 罗斌 2010 物理学报 59 7002]

    [6]

    Sugie T 1991 J. Lightwave Technol. 9 1145

    [7]

    van Deventer M O, van der Tol J J G M, Boot A J 1994 IEEE Photon. Technol. Lett. 6 291

    [8]

    Waarts R G, Braun R P 1985 Electron. Lett. 21 1114

    [9]

    Djupsjöbacka A, Jacobsen G, Tromborg B 2000 J. Lightwave Technol. 18 416

    [10]

    Maeda M W, Sessa W B, Way W I, Yi-Yan A, Curtis L, Spicer R, Laming R I 1990 J. Lightwave Technol. 8 1402

    [11]

    Inoue K, Nakanishi K, Oda K, Toba H 1994 J. Lightwave Technol. 12 1423

    [12]

    Du J X 2009 Acta Phys. Sin. 58 1046 (in Chinese) [杜建新 2009 物理学报 58 1046]

    [13]

    Chen W, Meng Z 2012 Chin. Opt. Lett. 10 020603

    [14]

    Chen W, Meng Z 2011 Proc. SPIE 7753 77532G

    [15]

    Chen W, Meng Z 2011 Opt. Laser Technol. 43 1270

    [16]

    Meng Z, Hu Y M, Xiong S D, Stewart G, Whitenett G, Culshaw B 2005 Appl. Opt. 44 3425

    [17]

    Dandridge A, Tveten A B, Giallorenzi T G 1982 IEEE J. Quantum Electron. 18 1647

    [18]

    Gaeta A L, Boyd R W 1991 Phys. Rev. A 44 3205

    [19]

    Gordon J P, Mollenauer L F 1990 Opt. Lett. 15 1351

    [20]

    Agrawal G P (Translated by Jia D F et al.) 2002 Nonlinear Fiber Optics and Applications of Nonlinear Fiber Optics (Beijing: Publishing House of Electronics Industry) pp88-90, 165-166, 488-490 (in Chinese) [阿戈沃著 贾东方等译 2002 非线性光纤光学原理及应用 (北京: 电子工业出版社) 第88-90页, 第165-166页, 第488-490页]

    [21]

    Chen W, Meng Z, Zhou H J, Luo H 2012 Chin. Phys. B 21 034212

    [22]

    Hill K O, Johnson D C, Kawasaki B S, MacDonald R I 1978 J. Appl. Phys. 49 5098

    [23]

    Alasia D, Herraez M G, Abrardi L, Lopez S M, Thevenaz L 2005 Proc. SPIE 5855 587

    [24]

    Wang X L, Zhou P, Ma Y X, Ma H T, Li X, Xu X J, Zhao Y J 2011 Acta Phys. Sin. 60 084203 (in Chinese) [王小林, 周朴, 马阎星, 马浩统, 李霄, 许晓军, 赵伊君 2011 物理学报 60 084203]

    [25]

    Chen W, Meng Z 2010 Chin. Opt. Lett. 8 1124

    [26]

    Chen W, Meng Z 2011 Chinese J. Lasers 38 0305002 (in Chinese) [陈伟, 孟洲 2011 中国激光 38 0305002]

    [27]

    Hansryd J, Dross F, Westlund M, Andrekson P A, Knudsen S N 2001 J. Lightwave Technol. 19 1691

    [28]

    Yoshizawa N, Imai T 1993 J. Lightwave Technol. 11 1518

    [29]

    Shiraki K, Ohashi M, Tateda M 1995 Electron. Lett. 31 668

    [30]

    de Oliveira C A S, Jen C K, Shang A, Saravanos C 1993 J. Opt. Soc. Am. B 10 969

    [31]

    Li M J, Chen X, Wang J, Gray S, Liu A, Demeritt J A, Ruffin A B, Crowley A M, Walton D T, Zenteno L A 2007 Opt. Express 15 8290

    [32]

    Chen W, Meng Z 2011 J. Phys. B: At. Mol. Opt. Phys. 44 165402

    [33]

    Forghieri F, Tkach R W, Chraplyvy A R 1995 J. Lightwave Technol. 13 889

    [34]

    Chraplyvy A R, Gnauck A H, Tkach R W, Derosier R M 1993 IEEE Photon. Technol. Lett. 5 1233

    [35]

    Inoue K 1993 J. Lightwave Technol. 11 2116

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  • 被引次数: 0
出版历程
  • 收稿日期:  2011-11-30
  • 修回日期:  2012-02-20
  • 刊出日期:  2012-09-05

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