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Acta Optica Sinica, Volume. 23, Issue 9, 1058(2003)

Optimized Design of Polarization-and Temperature-Insensitive Optical Waveguide Broad-Band Coupler Using Fluorinated Polyimide

[in Chinese]1, [in Chinese]1、*, [in Chinese]2, [in Chinese]1, and [in Chinese]3
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  • 1[in Chinese]
  • 2[in Chinese]
  • 3[in Chinese]
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    [1] [1] Takagi A, Jinguji K, Kawachi M. Silica-based waveguide-type wavelengthen-insensitive couplers (WINC′s) with series-tapered coupling structure. J. Lightwave Technol., 1992, 10(12):1815~1824

    [2] [2] Takagi A, Jinguji K, Kawachi M. Design and fabrication of broad-band silicon-based optical waveguide couplers with asymmetric structure. IEEE J. Quantum. Electron., 1992, 28(4):848~855

    [3] [3] Kobayashi J, Matsuura T, Sasaki S et al.. Single-mode optical waveguides fabricated from fluorinated polyimides. Appl. Opt., 1998, 47(9):943~948

    [4] [4] Kurokawa T, Takato N, Katayama Y. Polymer optical circuits for multimode optical fiber systems. Appl. Opt., 1980, 19(18):3124~3129

    [5] [5] Hartman D H, Lalk G R, Howse J W et al.. Radiant cured polymer optical waveguides on printed circuit boards for photonic interconnection use. Appl. Opt., 1989, 28(1):40~47

    [6] [6] Booth B L. Low loss channel waveguides in polymers. J. Lightwave Technol., 1989, 7(10):1445~1453

    [7] [7] Keil N, Yao H H, Zawadzki C et al.. 4×4 polymer thermo-optic directional coupler switch at 1.55 μm. Electron. Lett., 1989, 30(8):1445~1453

    [8] [8] Matsuura T, Kobayashi J, Ando S et al.. Heat-resistant flexible-film optical waveguides from fluorinated polyimides. Appl. Opt., 1999, 38(6):966~971

    [9] [9] Kaino T, Fujiki M, Oikawa S et al.. Low-loss plastic fibers. Appl. Opt., 1981, 20(17):2886~2888

    [10] [10] Imamura S, Yoshimura R, Izawa T. Polymer channel waveguides with low loss at 1.3 μm. Electron. Lett., 1991, 27(15):1342~1343

    [11] [11] Jae W K, Jae P K, Won Y L et al.. Low-loss fluorinated poly (arylene ether sulfide) waveguides with high thermal stability. J. Lightwave Technol., 2001, 19(6):872~875

    [12] [12] Kokubun Y, Yoneda S, Tanaka H. Temperature-independent narrowband optical filter at 1.3 μm wavelength by an athermal waveguide. Electron. Lett., 1996, 32(21):1998~2000

    [13] [13] Takahashi H, Oda K, Toba H et al.. Transmission characteristics of arrayed waveguide N×N wavelength multipexer. IEEE J. Lightwave Technol., 1995, 13(3):447~455

    [15] [15] Takato N, Hanawa F, Okamoto K et al.. Optical couplers using silica-based planar lightwave circuits. NTT Group′s Research and Development Activities, 1994, 43(11):1281~1288 (in Japanese)

    [16] [16] Kobayashi J, Inoue Y, Matsuura T et al.. Tunable and polarization-insensitive arrayed-waveguide grating multiplexer fabricated from fluorinated polyimides. IEICE Trans. Electron., 1998, E81-C(7):1020~1026

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    [in Chinese], [in Chinese], [in Chinese], [in Chinese], [in Chinese]. Optimized Design of Polarization-and Temperature-Insensitive Optical Waveguide Broad-Band Coupler Using Fluorinated Polyimide[J]. Acta Optica Sinica, 2003, 23(9): 1058

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    Paper Information

    Category: Fiber Optics and Optical Communications

    Received: Jul. 24, 2002

    Accepted: --

    Published Online: Jun. 27, 2006

    The Author Email: (bxchen@online.sh.cn)

    DOI:

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology