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Chinese Journal of Lasers, Volume. 39, Issue 7, 705001(2012)

Frequency Locking of Two DFB Lasers for Distributed Optical Fiber Sensing Applications

Peng Jiaobo1,2、*, Bian Zhenglan1,2, Hao Yunqi1,2, Chen Dijun1, Ye Qing1, and Cai Haiwen1
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    [1] [1] Sun An, Chen Jialin, Li Guoyang et al.. Detection of spontaneous Brillouin backscattered power in distributed optical fiber sensor system based on high frequency microwave technology[C]. Collection of Theses on High Power Laser and Plasma Physics, 2007, 5(1): 233~236

    [2] [2] M. Alahbabi, N. Lawrence, Y. Cho et al.. High spatial resolution microwave detection system for Brillouin based distributed detection of spontaneous Brillouin backscatter[J]. Meas. Sci. Technol., 2004, 15(8): 1539~1543

    [3] [3] T. Horiguchi, T. Kurashima, M. Tateda. Tensile strain dependence of Brillouin frequency shift in silica optical fiber[J]. IEEE Photon. Technol. Lett., 1989, 1(5): 107~108

    [4] [4] D. Culverhouse, F. Farahi, C. N. Pannel et al.. Potential of stimulated Brillouin scattering as sensing mechanism for distributed temperature sensors[J]. Electron. Lett., 1989, 25(14): 913~915

    [5] [5] X. Bao, D. J. Webb, D. A. Jackson. 22-km distributed temperature sensor using Brillouin gain in an optical fiber[J]. Opt. Lett., 1993, 18(7): 552~554

    [6] [6] Y. Li, X. Bao, F. Ravet et al.. Distributed Brillouin sensor system based on offset locking of two distributed feedback lasers[J]. Appl. Opt., 2008, 47(2): 99~102

    [7] [7] T. Kurashima, T. Horiguchi, M. Tateda. Distributed temperature sensing using stimulated Brillouin scattering in optical silica fibers[J]. Opt. Lett., 1990, 15(18): 1038~1040

    [8] [8] F. Ravet, X. Bao, L. Zou et al.. Accurate strain detection and localization with the distributed Brillouin sensor based on a phenomenological signal processing approach[C]. SPIE, 2006, 6176: 61761C

    [9] [9] H. H. Kee, G. P. Lees, T. P. Newson. All-fiber system for simultaneous interrogation of distributed strain and temperature sensing by spontaneous Brillouin scattering[J]. Opt. Lett., 2000, 25(10): 695~697

    [10] [10] J. Geng, S. Staines, M. Blake et al.. Distributed fiber temperature and strain sensor using coherent radio-frequency detection of spontaneous Brillouin scattering[J]. Appl. Opt., 2007, 46(23): 5928~5932

    [11] [11] Xu Nan, Liu Liren, Liu Dean et al.. Optical phase locked loops in inter-satellites coherent optical communications[J]. Laser & Optoelectronics Progress, 2011, 45(4): 25~33

    [12] [12] J. Appel, A. Macrae, A. I. Lvovsky. A versatile digital GHz phase lock for external cavity diode lasers[J]. Meas. Sci. Technol., 2009, 20(5): 055302

    [13] [13] A. M. Marino, C. R. Stroud. Phase-locked laser system for use in atomic coherence experiments[J]. Rev. Sci. Instrum., 2008, 79(1): 013104

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    Peng Jiaobo, Bian Zhenglan, Hao Yunqi, Chen Dijun, Ye Qing, Cai Haiwen. Frequency Locking of Two DFB Lasers for Distributed Optical Fiber Sensing Applications[J]. Chinese Journal of Lasers, 2012, 39(7): 705001

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    Paper Information

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    Received: Mar. 23, 2012

    Accepted: --

    Published Online: Jun. 4, 2012

    The Author Email: Jiaobo Peng (jiaobo_peng@163.com)

    DOI:10.3788/cjl201239.0705001

    Topics

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