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首页> 外文期刊>Lightwave Technology, Journal of >Demonstration of Intermodal Four-Wave Mixing by Femtosecond Pulses Centered at 1550 nm in an Air-Silica Photonic Crystal Fiber
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Demonstration of Intermodal Four-Wave Mixing by Femtosecond Pulses Centered at 1550 nm in an Air-Silica Photonic Crystal Fiber

机译:航空硅光子晶体光纤中以飞秒脉冲为中心的飞秒脉冲在1550 nm处的多峰四波混合演示

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摘要

In this paper, we demonstrated experimentally the intermodal four-wave mixing effect by launching femtosecond pulses centered at 1550 nm into deeply normal dispersion region in the fundamental guided-mode of an air-silica photonic crystal fiber with two zero dispersion wavelengths. When intermodal phase-matching condition is satisfied, the energy of the pump waves at 1550 nm in the fundamental guided-mode is converted to the anti-Stokes waves around 1258 nm and Stokes waves around 2018 nm both in the second-order guided-mode. When femtosecond pulses at input average power Pav of 90 mW are propagated inside 22-cm-long photonic crystal fiber, the conversion efficiencies ηas and ηs of the anti-Stokes and Stokes waves generated are 8.5% and 6.8%, respectively. We also observed that the influences of the fiber bending and walk-off effect between the fundamental and second-order guided-modes on intermodal four-wave mixing-based frequency conversion process are very small.
机译:在本文中,我们通过在两个零色散波长的空气-二氧化硅光子晶体光纤的基本导模下,将以1550 nm为中心的飞秒脉冲发射到深法向色散区域中,实验证明了多峰四波混频效应。当满足模态相位匹配条件时,在基本引导模式下在1550 nm处的泵浦波的能量在第二阶引导模式下都被转换为1258 nm附近的反斯托克斯波和2018 nm附近的斯托克斯波。在输入平均功率Pav为90 mW的飞秒脉冲在22厘米长的光子晶体光纤中传播时,产生的反斯托克斯波和斯托克斯波的转换效率ηas和ηs分别为8.5%和6.8%。我们还观察到,基波和二阶导模之间的光纤弯曲和走离效应对基于联运四波混频的频率转换过程的影响很小。

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  • 来源
    《Lightwave Technology, Journal of》 |2017年第12期|2385-2390|共6页
  • 作者

    Jinhui Yuan; Zhe Kang; Feng Li; Xianting Zhang; Xinzhu Sang; Guiyao Zhou; Qiang Wu; Binbin Yan; Kuiru Wang; Chongxiu Yu; Hwa Yaw Tam; P. K. A. Wai;

  • 作者单位

    State Key Laboratory of Information Photonics and Optical Communications (Beijing University of Posts and Telecommunications), Beijing, China;

    Photonics Research Centre, Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong, SAR China;

    Photonics Research Centre, Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong, SAR China;

    Photonics Research Centre, Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong, SAR China;

    State Key Laboratory of Information Photonics and Optical Communications (Beijing University of Posts and Telecommunications), Beijing, China;

    Guangdong Provincial Key Laboratory of Nanophotonic Functional Materials and Devices, South China Normal University, Guangzhou, China;

    Department of Physics and Electrical Engineering, Northumbria University, Newcastle upon Tyne, U.K.;

    State Key Laboratory of Information Photonics and Optical Communications (Beijing University of Posts and Telecommunications), Beijing, China;

    State Key Laboratory of Information Photonics and Optical Communications (Beijing University of Posts and Telecommunications), Beijing, China;

    State Key Laboratory of Information Photonics and Optical Communications (Beijing University of Posts and Telecommunications), Beijing, China;

    Photonics Research Centre, Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong, SAR China;

    Photonics Research Centre, Department of Electronic and Information Engineering, The Hong Kong Polytechnic University, Hung Hom, Hong Kong, SAR China;

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  • 正文语种 eng
  • 中图分类
  • 关键词

    Ultrafast optics; Frequency conversion; Optical fiber dispersion; Photonics; Optical fibers; Nonlinear optics;

    机译:超快光学;频率转换;光纤色散;光子学;光纤;非线性光学;

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