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    Journals >Opto-Electronic Engineering >Volume 39 >Issue 4 >Page 96 > Article
    • Opto-Electronic Engineering
    • Vol. 39, Issue 4, 96 (2012)
    Tunable Filtering Scheme and Characteristics Analysis Based on Photorefractive Gratings
    ZHANG Ming*, MENG Hui-yun, CHEN Liu-wei, and LE Zi-chun
    Author Affiliations
  • [in Chinese]
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    DOI: 10.3969/j.issn.1003-501x.2012.04.017 Cite this Article
    ZHANG Ming, MENG Hui-yun, CHEN Liu-wei, LE Zi-chun. Tunable Filtering Scheme and Characteristics Analysis Based on Photorefractive Gratings[J]. Opto-Electronic Engineering, 2012, 39(4): 96 Copy Citation Text show less
    References

    [1] DAS B K,SUCHE H,SOHLER W. Single-frequency Ti:Er:LiNbO3 distributed Bragg reflector waveguide laser with thermally fixed photorefractive cavity [J]. Appl. Phys. B (S0946-2171),2001,73(5/6):439-442.

    [3] WU Xiang-nong,LU Chao,WANG Yi-xin,et al. Crosstalk Study in a FBG-MOC-Based OXC Using Scattering Parameters [J]. Acta Optica Sinica,2003,23(z1):763-764.

    [4] CHOI S,EOM T J,JUNG Y,et al. Broad-Band Tunable All-Fiber Bandpass Filter Based on Hollow Optical Fiber and Long-Period Grating Pair [J]. IEEE Photonics Technology Letters(S1041-1135),2005,17(1):115-117.

    [5] KOCABAS A,AYDINLI A. Polymeric waveguide Bragg grating .lter using soft lithography [J]. Optics Express (S1094-4087),2006,14(22):10228-10232.

    [6] ARIZMENDI L. Photonic applications of lithium niobate crystals [J]. Physica Status Solidi C(S1610-1634),2006,2(2): 253-283.

    [7] DITTRICH P,MONTEMEZZANI G,GUNTER P. Tunable optical filter for wavelength division multiplexing using dynamic interband photorefractive gratings [J]. Optics Communications(S0030-4018),2002,214(1/6):363-370.

    [8] BREER S,BUSE K. Wavelength demultiplexing with volume phase holograms in photorefractive lithium niobate [J]. Applied Physics B:Lasers and Optics (S0946-2171),1998,66(3):339-345.

    [9] PIEMO L,DISPENZA M,SECCHI A,et al. A lithium niobate electro-optic tunable Bragg filter fabricated by electron beam lithography [J]. Opt. A:Pure Appl. Opt(S1464-4258),2008,10(6):064017.

    [10] HUKREDE J,RUNDE D,KIP D. Fabrication and application of holographic Bragg gratings in lithium niobate channel waveguides [J]. Journal of Physics D:Applied Physics(S0022-3727),2003,36(3):R1-R16.

    [12] MANSINGH A,DHAR A. The AC conductivity and dielectric constant of lithium niobate single crystals [J]. Journal of Physics D:Applied Physics(S0022-3727),1985,18(10):2059-2071.

    [14] LIU J J,BANERJEE P P,SONG Q W. Role of diffusive,photovoltaic,and thermal effects in beam fanning in LiNbO3 [J]. J. Opt. Soc. Am. B(S0740-3224),1994,11(9):1688-1693.

    [15] KOGELNIK H. Coupled wave theory for thick hologram gratings [J]. Bell System Technical Journal(S0005-8580),1969, 48(9):2909-2947.

    [16] BUSE K. Light-induced charge transport processes in photorefractive crystals II [J]. Appl. Phys. B(S0946-2171),1997,64(4): 391-407.

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    [1] ZHANG Ming, YU Yudong, LE Zichun. Surface Plasma Filter Based on Photorefractive Grating in Lithium Niobate[J]. Opto-Electronic Engineering, 2015, 42(10): 73

    [2] YANG Xiaofei. Design of Visible Optical Plasma System EAST Tokamak[J]. Opto-Electronic Engineering, 2015, 42(10): 27

    [3] Yang Xiaofei, Gan Kaifu. Design of infrared and visible optical diagnostic system with wide field for EAST Tokamak plasma[J]. Infrared and Laser Engineering, 2015, 44(12): 3656

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    ZHANG Ming, MENG Hui-yun, CHEN Liu-wei, LE Zi-chun. Tunable Filtering Scheme and Characteristics Analysis Based on Photorefractive Gratings[J]. Opto-Electronic Engineering, 2012, 39(4): 96
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