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    Journals >Journal of Applied Optics >Volume 45 >Issue 4 >Page 873 > Article
    • Journal of Applied Optics
    • Vol. 45, Issue 4, 873 (2024)
    Research and simulation of fiber sensor for weak magnetic field detection
    Xinyu ZHAO, Xingfang JIANG*, Zhiqiang RUAN, and Lei ZHANG
    Author Affiliations
  • School of Microelectronics and Control Engineering, Changzhou University, Changzhou, Jiangsu 213164, China
    • show less
    DOI: 10.5768/JAO202445.0408002 Cite this Article
    Xinyu ZHAO, Xingfang JIANG, Zhiqiang RUAN, Lei ZHANG. Research and simulation of fiber sensor for weak magnetic field detection[J]. Journal of Applied Optics, 2024, 45(4): 873 Copy Citation Text show less
    References

    [1] S A MITU, M N AKTAR, S M IBRAHIM et al. Surface plasmon resonance–based refractive index biosensor: an external sensing approach. Plasmonics, 17, 1581-1592(2022).

    [2] Tianmu LIU, Yi JIANG, Yang CUI. Photonic crystal fiber temperature and pressure sensor. Acta Photonica Sinica, 49, 0406001(2020).

    [3] Qiang LIU, Jin ZHAO, Yudan SUN et al. A novel methane and hydrogen sensor with surface plasmon resonance-based photonic quasi-crystal fiber. Chinese Optics, 16, 174-183(2023).

    [4] T Y DAI, C Y CHEN, L HUANG et al. Ultrasensitive magnetic sensors enabled by heterogeneous integration of graphene hall elements and silicon processing circuits. ACS Nano, 14, 17606-17614(2020).

    [5] Y TAO, W L FENG. High-sensitivity detection of magnetic field and temperature based on magnetic fluid coated bi-tapered Mach-Zehnder interferometer. Optik, 259, 168981(2022).

    [6] J CHEN, S Y HUANG, C Y LIN et al. A low-frequency magnetic field sensor based on fiber Bragg gratings. Photonics, 9, 102(2022).

    [7] DASH J NARAYAN, R DAS. SPR based magnetic-field sensing in microchannelled PCF: a numerical approach. Journal of Optics, 20, 115001(2018).

    [8] M R ISLAM, M M I KHAN, S SIRAZ et al. Design and analysis of a QC-SPR-PCF sensor for multipurpose sensing with supremely high FOM. Applied Nanoscience, 12, 29-45(2022).

    [9] S Y YAO, Y YU, S P QIN et al. Research on optimization of magnetic field sensing characteristics of PCF sensor based on SPR. Optics Express, 30, 16405-16418(2022).

    [10] I DANLARD, E K AKOWUAH. Assaying with PCF-based SPR refractive index biosensors: from recent configurations to outstanding detection limits. Optical Fiber Technology, 54, 102083(2020).

    [11] A KUMAR, A KUMAR, S K SRIVASTAVA. Silicon nitride-BP-based surface plasmon resonance highly sensitive biosensor for virus SARS-CoV-2 detection. Plasmonics, 17, 1065-1077(2022).

    [12] Rong WU, Luyao ZHANG, Qingbo YAN et al. New photonic crystal fiber structure with high birefringence for liquid sensing. Journal of Applied Optics, 41, 637-644(2020).

    [13] H M YANG, G Y WANG, Y LU et al. Highly sensitive refractive index sensor based on SPR with silver and titanium dioxide coating. Optical and Quantum Electronics, 53, 341-353(2021).

    [14] M R ISLAM, M M I KHAN, NASER A M AL et al. Design of a quad channel SPR-based PCF sensor for analyte, strain, temperature, and magnetic field strength sensing. Optical and Quantum Electronics, 54, 1-24(2022).

    [15] Chuni YE, Heming CHEN. Photonic crystal fiber temperature sensor based on surface plasmon resonance. Optical Communication Technology, 45, 1-5(2021).

    [16] M J ZHU, L YANG, J W LYU et al. Highly sensitive dual-core photonic crystal fiber based on a surface plasmon resonance sensor with gold film. Plasmonics, 17, 543-550(2022).

    [17] S F GU, W SUN, M LI et al. Simultaneous measurement of magnetic field and temperature based on photonic crystal fiber plasmonic sensor with dual-polarized modes. Optik, 259, 169030(2022).

    [18] H LIU, C C CHEN, H R WANG et al. Simultaneous measurement of magnetic field and temperature based on surface plasmon resonance in twin-core photonic crystal fiber. Optik, 203, 164007(2020).

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    Xinyu ZHAO, Xingfang JIANG, Zhiqiang RUAN, Lei ZHANG. Research and simulation of fiber sensor for weak magnetic field detection[J]. Journal of Applied Optics, 2024, 45(4): 873
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