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首页> 外文期刊>Applied physics >Generation of visible wavelength by the phase-matching four-wave mixing in an Yb-doped V-shape photonic crystal fiber
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Generation of visible wavelength by the phase-matching four-wave mixing in an Yb-doped V-shape photonic crystal fiber

机译:在掺Yb型V形光子晶体光纤中通过相位匹配四波混频产生可见波长

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摘要

In this paper, an Ytterbium-doped V-shape photonic crystal fiber (Yb-VPCF) with low dispersion and high nonlinearity is designed and fabricated in our laboratory. Through coupling femtosecond pulses into the fundamental mode of Yb-VPCF, the tunable anti-Stokes signals at the visible wavelength are efficiently generated based on the phase-matching four-wave mixing. When the pump wavelength is changed from 810, to 820, and to 830 nm and the input average power is increased from 0.4, to 0.5, and to 0.6 W, respectively, the anti-Stokes signals are generated within the wavelength range of 562-477 nm. The wavelength-tunable range is over 100 nm, and the maximum power ratio of anti-Stokes signal at 477 nm and the residual pump at 830 nm can be up to 23.9:1. The anti-Stokes signals generated can be used as the ultrashort pulse sources for ultrafast optoelectronics and spectroscopy.
机译:本文设计并制造了一种低色散,高非线性的掺VV形光子晶体光纤(Yb-VPCF)。通过将飞秒脉冲耦合到Yb-VPCF的基本模式,基于相位匹配的四波混频,可以有效地生成可见波长的可调反斯托克斯信号。当泵浦波长从810 nm更改为820 nm到830 nm,并且输入平均功率分别从0.4 W,0.5 W和0.6 W增大时,将在562- 477纳米波长可调范围超过100 nm,并且在477 nm处反斯托克斯信号和830 nm处的残留泵浦的最大功率比可以高达23.9:1。所产生的反斯托克斯信号可用作超快光电子学和光谱学的超短脉冲源。

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  • 来源
    《Applied physics》 |2015年第1期|117-122|共6页
  • 作者

    Li Lixiao; Yuan Jinhui; Sang Xinzhu; Yan Binbin; Wang Kuiru; Yu Chongxiu; Han Ying; Xia Changming; Zhou Guiyao; Wei Shuai; Wang Chao; Yang Jianju; Wang Shuang; Cheng Xu; Hou Lantian;

  • 作者单位

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Yanshan Univ, Inst Infrared Opt Fibers & Sensors, Dept Phys, Qinhuangdao 066004, Peoples R China;

    S China Normal Univ, Guangdong Prov Key Lab Nanophoton Funct Mat & Dev, Guangzhou 510006, Guangdong, Peoples R China;

    Yanshan Univ, Inst Infrared Opt Fibers & Sensors, Dept Phys, Qinhuangdao 066004, Peoples R China|S China Normal Univ, Guangdong Prov Key Lab Nanophoton Funct Mat & Dev, Guangzhou 510006, Guangdong, Peoples R China;

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Yanshan Univ, Inst Infrared Opt Fibers & Sensors, Dept Phys, Qinhuangdao 066004, Peoples R China;

    Yanshan Univ, Inst Infrared Opt Fibers & Sensors, Dept Phys, Qinhuangdao 066004, Peoples R China;

    Yanshan Univ, Inst Infrared Opt Fibers & Sensors, Dept Phys, Qinhuangdao 066004, Peoples R China;

    Beijing Univ Posts & Telecommun, State Key Lab Informat Photon & Opt Commun, Beijing 100876, Peoples R China;

    Yanshan Univ, Inst Infrared Opt Fibers & Sensors, Dept Phys, Qinhuangdao 066004, Peoples R China;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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  • 正文语种 eng
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  • 入库时间 2022-08-18 03:08:02

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