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    Journals >Infrared and Laser Engineering >Volume 47 >Issue 12 >Page 1222001 > Article
    • Infrared and Laser Engineering
    • Vol. 47, Issue 12, 1222001 (2018)
    Mode converter based on fiber grating to eliminate intermode interference phenomenon
    Zhao Runhan*, Meng Xinyu, Zhao Yunhe, Si Xiaolong, and Liu Yunqi
    Author Affiliations
  • [in Chinese]
    • show less
    DOI: 10.3788/irla201847.1222001 Cite this Article
    Zhao Runhan, Meng Xinyu, Zhao Yunhe, Si Xiaolong, Liu Yunqi. Mode converter based on fiber grating to eliminate intermode interference phenomenon[J]. Infrared and Laser Engineering, 2018, 47(12): 1222001 Copy Citation Text show less
    References

    [1] Johannes Von Hoyningen Huene. LCoS-based mode shaper for few-mode fiber [J]. Optics Express, 2013, 21(15): 18097-18110.

    [2] Muhammad M Ali. Characterization of mode coupling in few-mode FBG with selective mode excitation [J]. IEEE Photonic Technology Letters, 2015, 27(16): 1713-1716.

    [3] Gao Feng, Qin Li. Research progress of bent waveguide and its applications [J]. Chinese Optics, 2017, 10(2): 176-193. (in Chinese)

    [4] Xiang Qian, Chang Lijun. Design and optimization of mode converter based on long period fiber grating [C]//SPIE, 2016, 10158: 101580H.

    [5] Dong Jiangli, Chang Kinseng. Temperature-insensitive mode converters with CO2-laser written long-period fiber gratings [J]. IEEE Photonic Technology Letters, 2015, 27(9): 1006-1009.

    [6] Zhao Yunhe, Liu Yunqi. Mode converter based on the long-period fiber gratings written in the two-mode fiber [J]. Optics Express, 2016, 24(6): 6186-6195.

    [7] Christos Tsekrekos, Dimitris Syvridis. All-fiber broadband LP02 mode converter for future wavelength and MDM systems [J]. IEEE Photonic Technology Letters, 2012, 24(18): 1638-1641.

    [8] Muhammad W S, Mehta A. Wavelength tunable fiber lens based on multimode interference [J]. Journal of Lightwave Technology, 2004, 22(2): 469-477.

    [9] Sun Baochen, Hou Yuemin. Coupling characteristics between fiber grating and stimulated Brillouin signal [J]. Chinese Optics, 2017, 10(4): 484-490. (in Chinese)

    [10] Wang Leijie, Zhang Ming. A displacement measurement system for ultra-precision heterodyne Littrow grating interferometer[J]. Optics and Precision Engineering, 2017, 25(12): 2975-2985. (in Chinese)

    [11] Liu Chao, Zhang Wen. Dual-parameter sensing characteristics of long period fiber grating cascaded with fiber MZ structure fabricated by CO2 laser [J]. Infrared and Laser Engineering, 2017, 46(9): 0922001. (in Chinese)

    [12] Zhang Faxiang, Lv Jingsheng. High sensitive fiber Bragg grating micro-vibration sensor with shock resistance[J]. Infrared and Laser Engineering, 2016, 45(8): 0822002. (in Chinese)

    [13] Guo Yongxing, Xiong Li, Kong Jianyi, et al. Sliding type fiber Bragg grating displacement sensor [J]. Optics and Precision Engineering, 2017, 25(1): 50-58. (in Chinese)

    [14] Jiang Meng. Research on sensor and demodulation multiplexing technology based on long period fiber Bragg grating [D]. Hangzhou: Zhejiang University, 2010. (in Chinese)

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    Zhao Runhan, Meng Xinyu, Zhao Yunhe, Si Xiaolong, Liu Yunqi. Mode converter based on fiber grating to eliminate intermode interference phenomenon[J]. Infrared and Laser Engineering, 2018, 47(12): 1222001
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