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Acta Optica Sinica, Volume. 32, Issue 3, 306005(2012)

Experimental Investigation on Superfluorescent Sources Based on Erbium-Doped Photonic Crystal Fiber

Wu Xu1、*, Ruan Shuangchen1, Liu Chengxiang1, and Zhang Li2
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    [1] [1] P. F. Wysocki, M. J. F. Digonnet, B. Y. Kim et al.. Characteristics of erbium-doped superfluorescent fiber sources for interferometric sensor applications [J]. J. Lightwave Technol., 1994, 12(3): 550~567

    [2] [2] D. C. Hall, W. K. Burns, R. P. Moeller. High-stability Er3+ doped superfluorescent fiber sources [J]. J. Lightwave Technol., 1995, 13(7): 1452~1460

    [3] [3] Wang Xiulin, Huang Wencai, Huang Xiaojing et al.. A novel mean wavelength stability and high efficiency L-band superfluorescent fiber source[J]. Chinese J. Lasers, 2009, 36(3): 647~652

    [4] [4] J. H. Lee, E. J. Jung, C. S. Kim. Optical coherence tomography based on a continuous-wave supercontinuum seeded by erbium-doped fiber′s amplified spontaneous emission [J]. J. Opt. Soc. Korea, 2010, 14(1): 49~54

    [5] [5] D. G. Falquier, M. J. F. Digonnet, H. J. Shaw. A polarization-stable Er-doped superfluorescent fiber source including a Faraday rotator mirror [J]. IEEE Photon. Technol. Lett., 2000, 12(11): 1465~1467

    [6] [6] S. V. Frolov, A. Paunescu. Waveguide-based broadband source for optical gyroscopes [J]. Electron. Lett., 2005, 1(22): 1242

    [7] [7] P. Ou, B. Cao, C. X. Zhang et al.. Er-doped superfluorescent fibre source with enhanced mean-wavelength stability using chirped fiber grating [J]. Electron. Lett., 2008, 44(3): 187~189

    [8] [8] A. Wang, P. Ou, L. S. Feng et al.. High-stability Er-doped superfluorescent fiber source incorporating photonic bandgap fiber[J]. IEEE Photon. Technol. Lett., 2009, 21(24): 1843~1845

    [9] [9] Song Meimei, Feng Sujuan, Mao Qinghe. Influences of pump schemes on gain properties of L-band double-pass erbium-doped fiber amplifiers[J]. Acta Optica Sinica, 2010, 30(3): 681~685

    [10] [10] B. Stéphane, K. K. Hyang, J. F. D. Michel et al.. Reduced thermal sensitivity of a fiber-optic gyroscope using an air-core photonic-bandgap fiber [J]. J. Lightwave Technol., 2007, 25(3): 861~865

    [11] [11] T. Murao, K. Nagao, K. Saitoh et al.. Design principle for realizing low bending losses in all-solid photonic bandgap fibers [J]. J. Lightwave Technol., 2011, 29(16): 2428~2435

    [12] [12] Geng Pengcheng, Zhang Weigang, Zhang Shanshan et al.. Design of new type single-polarization single-mode photonic crystal fiber with wide bandwidth[J]. Acta Optica Sinica, 2011, 31(7): 0706001

    [13] [13] T. Matsui, J. Zhou, K. Nakajima. Dispersion-flattened photonic crystal fiber with large effective area and low confinement loss [J]. J. Lightwave Technol., 2005, 23(12): 4178~4183

    [14] [14] Wang Dan, Zheng Yi. Numerical simulation and analysis of double cladding photonic crystal fiber with flattened dispersion[J]. Acta Optica Sinica, 2011, 31(8): 0806010

    [15] [15] Li Honglei, Lou Shuqin, Guo Tieying et al.. Low loss fusion splicing of germanium doped core photonic crystal fiber and standard single mode fiber[J]. Chinese J. Lasers, 2010, 37(6): 1589~1593

    [16] [16] Liu Chengxiang, Zhang Li, Wu Xu et al.. Coupling technique of photonic crystal fiber[J]. J. Chin. Inertial Technol., 2009, 17(3): 366~369

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    Wu Xu, Ruan Shuangchen, Liu Chengxiang, Zhang Li. Experimental Investigation on Superfluorescent Sources Based on Erbium-Doped Photonic Crystal Fiber[J]. Acta Optica Sinica, 2012, 32(3): 306005

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    Paper Information

    Category: Fiber Optics and Optical Communications

    Received: Aug. 24, 2011

    Accepted: --

    Published Online: Jan. 17, 2012

    The Author Email: Xu Wu (wuxukai335@sohu.com)

    DOI:10.3788/aos201232.0306005

    Topics

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