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Journal of Applied Optics, Volume. 43, Issue 1, 167(2022)

Temperature sensing characteristics based on coreless- few mode-coreless optical fiber structure

Jing ZHANG and Yongqian LI
Author Affiliations
  • Hebei Key Laboratory of Power Internet of Things Technology, North China Electric Power University, Baoding 071003, China
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    [2] Tianqi LIU, Jing WANG, Yipeng LIAO, et al. Splicing point tapered fiber Mach-Zehnder interferometer for simultaneous measurement of temperature and salinity in seawater. Optics Express, 27, 23905(2019).

    [3] Z B TIAN, S S H YAM. In-line single-mode optical fiber interferometric refractive index sensors. Journal of Lightwave Technology, 27, 2296-2306(2009).

    [4] Ran HUANG, Kai NI, Xueying WU, et al. Refractometer based on Mach-Zehnder interferometer with peanut-shape structure. Optics Communications, 353, 27-29(2015).

    [5] D WU, T ZHU, K S CHIANG, et al. All single-mode fiber Mach–Zehnder interferometer based on two peanut-shape structures. Journal of Lightwave Technology, 30, 805-810(2012).

    [6] Ziting LIN, R Q LYU, Yong ZHAO, et al. High-sensitivity salinity measurement sensor based on no-core fiber. Sensors and Actuators A:Physical, 305, 111947(2020).

    [7] Bin DAI, Xiang SHEN, Xiongwei HU, et al. Temperature-insensitive refractive index sensor with etched microstructure fiber. Sensors, 19, 3749(2019).

    [8] Huihao WANG, Hongyun MENG, Rui XIONG, et al. Simultaneous measurement of refractive index and temperature based on asymmetric structures modal interference. Optics Communications, 364, 191-194(2016).

    [9] L LI, L XIA, Z XIE, et al. All-fiber Mach-Zehnder interferometers for sensing applications. Optics Express, 20, 11109-11120(2012).

    [10] Xinran DONG, Haifeng DU, Zhi LUO, et al. Highly sensitive strain sensor based on a novel Mach-Zehnder interferometer with TCF-PCF structure. Sensors, 18, 278(2018).

    [11] Hongdan WAN, Jiahe ZHANG, Qian CHEN, et al. An active fiber sensor based on modal interference in few-mode fibers for dual-parameter detection. Optics Communications, 481, 126498(2021).

    [12] Biao WANG, Weigang ZHANG, Zhiyong BAI, et al. Mach–Zehnder interferometer based on interference of selective high-order core modes. IEEE Photonics Technology Letters, 28, 71-74(2016).

    [14] Zhengrong TONG, Xue WANG, Yan WANG, et al. Dual-parameter optical fiber sensor based on few-mode fiber and spherical structure. Optics Communications, 405, 60-65(2017).

    [15] Xiujuan YU, Dan BU, Xuefeng CHEN, et al. Lateral stress sensor based on an in-fiber Mach–Zehnder interferometer and Fourier analysis. IEEE Photonics Journal, 8, 1-10(2016).

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    Jing ZHANG, Yongqian LI. Temperature sensing characteristics based on coreless- few mode-coreless optical fiber structure[J]. Journal of Applied Optics, 2022, 43(1): 167

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    Paper Information

    Category: FIBER SENSING AND OPTICAL COMMUNICATION

    Received: Jun. 21, 2021

    Accepted: Nov. 8, 2021

    Published Online: Mar. 7, 2022

    The Author Email:

    DOI:10.5768/JAO202243.0108003

    Topics

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