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铌酸锂晶体中飞秒激光脉冲线性电光效应及其色散补偿

钟东洲 佘卫龙

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铌酸锂晶体中飞秒激光脉冲线性电光效应及其色散补偿

钟东洲, 佘卫龙

Linear electro-optic effect of ultrashort laser pulses in LiNbO3 crystal and its dispersion compensation

Zhong Dong-Zhou, She Wei-Long
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  • 针对铌酸锂晶体中飞秒激光脉冲线性电光效应, 研究了光学相位共轭 对群速度色散 以及一阶和二阶折射率色散的补偿方案. 结果发现, 在任意初始输入脉宽条件下, 这些色散基本上都能得到补偿, 输出脉冲波形基本上和输入脉冲相同. 在此方案中, 若同时在色散补偿铌酸锂晶体上对输出脉冲进行电光相位调制, 则在一定外加电场作用下, 输出脉冲的脉宽将进一步被压缩, 初始输入脉宽越小, 压缩程度越大.
    For the linear electro-optic (EO) effect of ultrashort laser pulses in LiNbO3crystal, we investigate in this paper the compensation of the group-velocity dispersion, as well as the first- and second-order refractive dispersion by means of optical phase conjugation (OPC). It is found that for arbitrary input pulse durations, these dispersions can be compensated. And the waveforms of output pulses are almost the same as those of input ones. Also, the durations of output pulses can be compressed further when the phases of output pulses of OPC are modulated by EO effect in another LiNbO3for dispersion compensation. And the narrower the input duration, the more evident the compression of output duration becomes.
      通信作者: 佘卫龙, shewl@mail.sysu.edu.cn
    • 基金项目: 国家自然科学基金(批准号:90921009)资助的课题.
      Corresponding author: She Wei-Long, shewl@mail.sysu.edu.cn
    • Funds: Project supported by the National Natural Science Foundation of China (Gant No.90921009).
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    Matsunaga S,Murata H,Okamura Y 2006 J.Lightwave Technol.24 3334

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    Wu D D,SheWL 2005 Acta Phys.Sin 54 134 (in Chinese) [吴丹丹,佘卫龙 2005 物理学报 54 134]

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    Zheng G L,Wu D D,She W L 2005 Acta Phys.Sin 54 3063 (in Chinese) [郑国梁,吴丹丹,佘卫龙 2005 物理学报 54 3063]

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    Zhong D Z,She W L 2011 Appl.Phys.B 104 941

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    Porras M A 2001 Opt.Let.26 1364

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    Mon D,Baba T 2004 Appl.Phys.Lett.85 1101

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    Tsang M,Psaltis D 2003 Opt.Lett.28 1558

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    Hobden M V,Warner J 1966 Phys.Lett.22 243

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  • [1]

    Jung I D,Krtner F X,Matuschek N,Sutter D H,Genound F M,Zhang G,Keller U,Scheuer V,Tilsch M,Tschudi T 1997 Opt.Lett.22 1009

    [2]
    [3]

    Nisoli M,Slilvestri S D,Svelto O,Szipocs R,Ferencz K,Spielmann C,Sartania S,Krausz F 1997 Opt.Lett.22 522

    [4]

    Eaton H K 1999 Ph.D.Dissertation (Colorado University) P1

    [5]
    [6]

    Zhang P Z,Fan W,Wang X C,Lin Z Q 2011 Acta Phys.Sin.60 024206 (in Chinese) [张攀政,范微,汪小超,林尊琪 2011 物理学报 60 024206]

    [7]
    [8]

    Feng Z H,Fu X Q,Zhang L F,Xu H W,Wen S C 2008 Acta Phys.Sin.57 2253 (in Chinese) [冯则胡,傅喜泉,章礼富,徐慧文,文双春 2008 物理学报 57 2253]

    [9]
    [10]

    Yang Y S,Zheng W G,Han W,Che Y L,Tan J C,Xiang Y,Jia H T 2007 Acta Phys.Sin.56 6468 (in Chinese) [杨义胜,郑万国,韩伟,车雅良,谭吉春,向勇,贾怀庭 2007 物理学报 56 6468]

    [11]
    [12]

    Weiner A M,Leaird D E,Patel J S,Wullert J R 1992 IEEE.J.Quantum Electron.28 908

    [13]
    [14]
    [15]

    Dugan M A,Tull J X,Warren W S 1997 J.Opt.Soc.Am.B 14 2348

    [16]

    Zeek E,Maginnis K,Backus S,Russek U,Murnane M,Mourou G,Kapteyn H 1999 Opt.Lett.24 493

    [17]
    [18]

    Matsunaga S,Murata H,Okamura Y 2006 J.Lightwave Technol.24 3334

    [19]
    [20]
    [21]

    Masihzadeh O,Schlup P,Bartels R A 2007 Opt.Express 15 18025

    [22]
    [23]

    Nelson D F 1975 J.Opt.Soc.Am.65 1144

    [24]

    Yariv A 1973 IEEE J.Quantum.Electron.QE-9 919

    [25]
    [26]
    [27]

    She W L,Lee W K 2000 Opt.Commun.195 303

    [28]
    [29]

    Zheng G L,She W L 2006 Acta Phys.Sin.55 1061 (in Chinese)[郑国梁,佘卫龙 2006 物理学报 55 1061]

    [30]
    [31]

    Wu D D,SheWL 2005 Acta Phys.Sin 54 134 (in Chinese) [吴丹丹,佘卫龙 2005 物理学报 54 134]

    [32]

    Zheng G L,Wu D D,She W L 2005 Acta Phys.Sin 54 3063 (in Chinese) [郑国梁,吴丹丹,佘卫龙 2005 物理学报 54 3063]

    [33]
    [34]
    [35]

    Zhong D Z,She W L 2011 Appl.Phys.B 104 941

    [36]
    [37]

    Yariv A,Fekete D,Pepper D M 1979 Opt.Lett.4 52

    [38]

    Pepper D M,Yariv A 1980 Opt.Lett.5 59

    [39]
    [40]

    Porras M A 2001 Opt.Let.26 1364

    [41]
    [42]

    Mon D,Baba T 2004 Appl.Phys.Lett.85 1101

    [43]
    [44]

    Tsang M,Psaltis D 2003 Opt.Lett.28 1558

    [45]
    [46]

    Watanabe S,Chikama T,Ishikawa G,Terahara T,Kuwahara H 1993 IEEE.Photon.Technol.Lett.5 1241

    [47]
    [48]

    Watanabe S,Ishikawa G,Natio T,Chikama T 1994 J.Lightwave Technol.12 2139

    [49]
    [50]

    Minzioni P,Cristiani I,Degiorgio V,Marazzi L,Martinelli M,Langrock C,Fejer M M 2006 IEEE.Photon.Technol.Lett.18 995

    [51]
    [52]
    [53]

    Hobden M V,Warner J 1966 Phys.Lett.22 243

    [54]

    Marcuse D 1980 Appl.Opt.19 1653

    [55]
计量
  • 文章访问数:  3956
  • PDF下载量:  640
  • 被引次数: 0
出版历程
  • 收稿日期:  2011-06-21
  • 修回日期:  2011-08-03
  • 刊出日期:  2012-03-05

铌酸锂晶体中飞秒激光脉冲线性电光效应及其色散补偿

  • 1. 中山大学光电子材料与技术国家重点实验室, 广州 510275;
  • 2. 五邑大学信息工程学院, 江门 529020
  • 通信作者: 佘卫龙, shewl@mail.sysu.edu.cn
    基金项目: 

    国家自然科学基金(批准号:90921009)资助的课题.

摘要: 针对铌酸锂晶体中飞秒激光脉冲线性电光效应, 研究了光学相位共轭 对群速度色散 以及一阶和二阶折射率色散的补偿方案. 结果发现, 在任意初始输入脉宽条件下, 这些色散基本上都能得到补偿, 输出脉冲波形基本上和输入脉冲相同. 在此方案中, 若同时在色散补偿铌酸锂晶体上对输出脉冲进行电光相位调制, 则在一定外加电场作用下, 输出脉冲的脉宽将进一步被压缩, 初始输入脉宽越小, 压缩程度越大.

English Abstract

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