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Volume 37 Issue 2
Jan.  2013
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Research of photonic crystal fiber with high nonlinear flattened dispersion property

  • 1.

    College of Communication Engineering, Chongqing University, Chongqing 400044, China

  • Corresponding author: LIU Min, liumin@cqu.edu.cn
  • Received Date: 2012-07-18
    Accepted Date: 2012-08-28
  • In order to analyze the dependence of the nonlinear coefficient and dispersion property on the structural parameters of the inner air hole size and the changing of the air hole fraction, by using the full vector finite element method, the nonlinear coefficient and dispersion property as a function of frequency and design parameters were investigated. According to the analysis results, the nonlinear coefficient of photonic crystal fiber with hexagonal structure is significantly increased and the dispersion is flat. It is shown from numerical results that it is possible to design photonic crystal fiber of hexagonal structure with single mode transmission during 400nm~1160nm and high nonlinear coefficient achieves 172km-1·W-1, dispersion becomes flattened between 0.65μm~1.0μm. This result is helpful to the research of optical communication.
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    RUSSELL P St J. Photonic crystal fibers[J]. Journal of Lightwave Technology, 2006,24(12):4729-4749.
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    WANG Zh, LI X B, WANG J J. Properties of uniform fiber Bragg grating in high birefringent photonic crystal fiber [J]. Acta Optica Sinica, 2006,26(9): 1325-1328(in Chinese).
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    LI D, LIU M, JIAN D, et al. Characteristics of high birefringent dual-core photonic crystal fibers[J]. Chinese Journal of Lasers, 2012,39(4): 0405005(in Chinese).
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    LIU Zh L, LIU X D, NI Z H et al. Research on high nonlinearity and flattened dispersion of photonic crystal fibers [J]. Laser and Infrared, 2006,36(1): 47-50(in Chinese).
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    SU H X, WANG K, CUI J H, et al. Research progress of photonic crystal fiber sensor[J]. Instrument Technique and Sensor,2008,2(2):6-8(in Chinese).
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    SAITOH K, FUJISAWA T, KIRIHARA T, et al. Approximate empirical relations for nonlinear photonic crystal fiber[J]. Optics Express,2006,14(14): 6572-6582.
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    PETROPOULOS P, HEIDEPRIEM H E, FINAZZI V, et al. Highly nonlinear and anomalously dispersive lead silicate glass holey fibers[J]. Optics Express,2003,11(26): 3568-3573.
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    LIU J, YANG Ch X, GU C, et al. A novel photonic crystal fiber with high nonlinearity and flattened dispersion[J]. Acta Optica Sinca, 2006, 26(10): 1569-1574 (in Chinese).
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    WANG Q Y, HU M L, CHAI L. Progress in nonlinear optics with photonic crystal fibers[J]. Chinese Journal of Lasers, 2006, 33(l): 57-66 (in Chinese).
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    JIANG L H, HOU L T. Effect of structure parameters changes on the properties of photonic crystal fiber with two zero-dispersion wavelengths[J]. Acta Physica Sinica, 2010,59(2): 1095-1100(in Chinese).
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    YUSOFF Z, LEE J H, BELARDI W, et al. Raman effects in a highly nonlinear holey fiber: amplification and modulation[J]. Optics Letter,2002,27(6):424-426.
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    ZHANG Y, LI X Z, ZHENG Y. Analysis of dispersion characteristics of photonic crystal fiber[J]. Laser Technology, 2009,33(1):24-26(in Chinese).
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Research of photonic crystal fiber with high nonlinear flattened dispersion property

    Corresponding author: LIU Min, liumin@cqu.edu.cn
  • 1. College of Communication Engineering, Chongqing University, Chongqing 400044, China
  • Received Date: 2012-07-18
  • Accepted Date: 2012-08-28
  • Available Online: 2013-03-25

Abstract: In order to analyze the dependence of the nonlinear coefficient and dispersion property on the structural parameters of the inner air hole size and the changing of the air hole fraction, by using the full vector finite element method, the nonlinear coefficient and dispersion property as a function of frequency and design parameters were investigated. According to the analysis results, the nonlinear coefficient of photonic crystal fiber with hexagonal structure is significantly increased and the dispersion is flat. It is shown from numerical results that it is possible to design photonic crystal fiber of hexagonal structure with single mode transmission during 400nm~1160nm and high nonlinear coefficient achieves 172km-1·W-1, dispersion becomes flattened between 0.65μm~1.0μm. This result is helpful to the research of optical communication.

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