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    Journals >Optical Communication Technology >Volume 44 >Issue 5 >Page 38 > Article
    • Optical Communication Technology
    • Vol. 44, Issue 5, 38 (2020)
    Study of athermal AWG temperature compensation based on the bimetallic strip and the metal plate
    LI Chaofeng1 and FENG Jie2
    Author Affiliations
  • 1[in Chinese]
  • 2[in Chinese]
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    DOI: 10.13921/j.cnki.issn1002 5561.2020.05.009 Cite this Article
    LI Chaofeng, FENG Jie. Study of athermal AWG temperature compensation based on the bimetallic strip and the metal plate[J]. Optical Communication Technology, 2020, 44(5): 38 Copy Citation Text show less
    References

    [2] UENURNA M, MOTOOKA T. Design of a temperature independent arrayed waveguide grating on SOI substrates [C]// IEEE International Conference on Group IV Photonics, Sept. 19 -21, 2007, Tokyo, Japan. Tokyo: IEEE, 2007: 1-3.

    [3] OOBA N. Athermal silica-based arrayed-waveguide grating multiplexer using bimetal plate temperature compensator [J]. Electronics Letters, 2000, 36(21): 1800-1801.

    [4] SAITODE T, NARA K, NEKADO Y, et al. 100 GHz-32 chathermal AWG with extremely low temperature dependency of center wavelength [C]//Optical Fiber Communications Conference, March 28 -28, 2003, Georgia, USA. Atlanta: IEEE, 2003: 57-59.

    [5] HASEGAWA J, NARA K. Ultra-wide temperature range (-30℃~70℃ ) operation of athermal AWG module using pure aluminum plate[C]//Optical Fiber Communication Conference and the National Fiber Optic Engineers Conference, Mar. 5-10, 2006, California, USA. Anaheim: I EEE, 2006: 3-3.

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    LI Chaofeng, FENG Jie. Study of athermal AWG temperature compensation based on the bimetallic strip and the metal plate[J]. Optical Communication Technology, 2020, 44(5): 38
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