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Chinese Optics, Volume. 16, Issue 1, 174(2023)

A novel methane and hydrogen sensor with surface plasmon resonance-based photonic quasi-crystal fiber

Qiang LIU1, Jin ZHAO1, Yu-dan SUN1,2, Wei LIU1, Jian-xin WANG1, Chao LIU1、*, Jing-wei LV1, Shi-miao WANG1, Yu JIANG1, and CHU PAUL K3
Author Affiliations
  • 1School of Physics and Electronics Engineering, Northeast Petroleum University, Daqing 163318, China
  • 2College of Mechanical and Electrical Engineering, Daqing Normal University, Daqing 163712, China
  • 3Department of Physics, City University of Hong Kong, Tat Chee Avenue, Hong Kong 999077, China
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    References(37)

    [1] HAO Q Q, LUO ZH M, WANG T, et al. The flammability limits and explosion behaviours of hydrogen-enriched methane-air mixtures[J]. Experimental Thermal and Fluid Science, 126, 110395(2021).

    [2] SUMIDA S, OKAZAKI S, ASAKURA S, et al. Distributed hydrogen determination with fiber-optic sensor[J]. Sensors and Actuators B:Chemical, 108, 508-514(2005).

    [3] YANG J CH, XU L J, CHEN W M. An optical fiber methane gas sensing film sensor based on core diameter mismatch[J]. Chinese Optics Letters, 8, 482-484(2010).

    [4] WANG Y, YANG M H, ZHANG G L, et al. Fiber optic hydrogen sensor based on fabry-perot interferometer coated with sol-gel Pt/WO3 coating[J]. Journal of Lightwave Technology, 33, 2530-2534(2015).

    [5] ZHOU B, CHEN ZH, ZHANG Y B, et al. Active fiber gas sensor for methane detecting based on a laser heated fiber bragg grating[J]. IEEE Photonics Technology Letters, 26, 1069-1072(2014).

    [6] PUSTELNY T, MACIAK E, OPILSKI Z, et al. Optical interferometric structures for application in gas sensors[J]. Optica Applicata, 37, 187-194(2007).

    [7] WANG X X, ZHU J K, XU Y Q, et al. A novel plasmonic refractive index sensor based on gold/silicon complementary grating structure[J]. Chinese Physics B, 30, 024207(2021).

    [8] WANG X X, WU Y, WEN X L, et al. Surface plasmons and SERS application of Au nanodisk array and Au thin film composite structure[J]. Optical and Quantum Electronics, 52, 238(2020).

    [9] LIU Q, JIANG Y, SUN Y D, et al. Surface plasmon resonance sensor based on U-shaped photonic quasi-crystal fiber[J]. Applied Optics, 60, 1761-1766(2021).

    [10] LIU Q, SUN J D, SUN Y D, et al. Surface plasmon resonance sensor based on photonic crystal fiber with indium tin oxide film[J]. Optical Materials, 102, 109800(2020).

    [11] LI CH G, YAN B, LIU J J. Refractive index sensing characteristics in a D-shaped photonic quasi-crystal fiber sensor based on surface plasmon resonance[J]. Journal of the Optical Society of America A, 36, 1663-1668(2019).

    [12] YAN B, WANG A R, LIU E X, et al. Polarization filtering in the visible wavelength range using surface plasmon resonance and a sunflower-type photonic quasi-crystal fiber[J]. Journal of Physics D:Applied Physics, 51, 155105(2018).

    [13] SIDDIK A B, HOSSAIN S, PAUL A K, et al. High sensitivity property of dual-core photonic crystal fiber temperature sensor based on surface plasmon resonance[J]. Sensing and Bio-Sensing Research, 29, 100350(2020).

    [14] HOSSAIN B, ISLAM S M R, HOSSAIN K M T, et al. High sensitivity hollow core circular shaped PCF surface plasmonic biosensor employing silver coat: a numerical design and analysis with external sensing approach[J]. Results in Physics, 16, 102909(2020).

    [15] WEI W, NONG J P, ZHANG G W, et al. Graphene-based long-period fiber grating surface plasmon resonance sensor for high-sensitivity gas sensing[J]. Sensors, 17, 2(2017).

    [16] LIU H, WANG M, WANG Q, et al. Simultaneous measurement of hydrogen and methane based on PCF-SPR structure with compound film-coated side-holes[J]. Optical Fiber Technology, 45, 1-7(2018).

    [17] LIU H, ZHANG Y Z, CHEN C, et al. Transverse-stress compensated methane sensor based on long-period grating in photonic crystal fiber[J]. IEEE Access, 7, 175522-175530(2019).

    [18] LIU E X, LIANG SH W, LIU J J. Double-cladding structure dependence of guiding characteristics in six-fold symmetric photonic quasi-crystal fiber[J]. Superlattices and Microstructures, 130, 61-67(2019).

    [19] LIU E X, TAN W, YAN B, et al. Robust transmission of orbital angular momentum mode based on a dual-cladding photonic quasi-crystal fiber[J]. Journal of Physics D:Applied Physics, 52, 325110(2019).

    [20] LEE Y S, LEE C G, KIM S. Annular core photonic quasi-crystal fiber with wideband nearly zero ultra-flat dispersion, low confinement loss and high nonlinearity[J]. Optik, 157, 141-147(2018).

    [21] SIVABALAN S, RAINA J P. High normal dispersion and large mode area photonic quasi-crystal fiber stretcher[J]. IEEE Photonics Technology Letters, 23, 1139-1141(2011).

    [22] LIU D M, LIU J CH, WANG H, et al. Laser etching of groove structures with micro-optical fiber-enhanced irradiation[J]. Nanoscale Research Letters, 7, 318(2012).

    [23] ZHAO Q K, TIAN F J, YANG X H, et al. Optical fibers with special shaped cores drawn from 3D printed preforms[J]. Optik, 133, 60-65(2017).

    [24] MARUYAMA T, FUKUI K. Indium-tin oxide thin films prepared by chemical vapor deposition[J]. Journal of Applied Physics, 70, 3848-3851(1991).

    [25] BING P B, SUI J L, WU G F, et al. Analysis of dual-channel simultaneous detection of photonic crystal fiber sensors[J]. Plasmonics, 15, 1071-1076(2020).

    [26] ZHANG Y N, ZHAO Y, WANG Q. Measurement of methane concentration with cryptophane E infiltrated photonic crystal microcavity[J]. Sensors and Actuators B:Chemical, 209, 431-437(2015).

    [27] SHAKYA A K, SINGH S. Design of dual polarized tetra core PCF based plasmonic RI sensor for visible-IR spectrum[J]. Optics Communications, 478, 126372(2021).

    [28] YAN X, FU R, CHENG T L, et al. A highly sensitive refractive index sensor based on a V-shaped photonic crystal fiber with a high refractive index range[J]. Sensors, 21, 3782(2021).

    [29] LIU Q, SUN J D, SUN Y D, et al. High-sensitivity SPR sensor based on the eightfold eccentric core PQF with locally coated indium tin oxide[J]. Applied Optics, 59, 6484-6489(2020).

    [30] YANG ZH, XIA L, LI CH, et al. A surface plasmon resonance sensor based on concave-shaped photonic crystal fiber for low refractive index detection[J]. Optics Communications, 430, 195-203(2019).

    [31] ZHAN Y S, LI Y L, WU ZH Q, et al. Surface plasmon resonance-based microfiber sensor with enhanced sensitivity by gold nanowires[J]. Optical Materials Express, 8, 3927-3940(2018).

    [32] PAUL A K, HABIB S, HAI N H, et al. An air-core photonic crystal fiber based plasmonic sensor for high refractive index sensing[J]. Optics Communications, 464, 125556(2020).

    [33] LIU Q, ZHAO J, SUN Y D, et al. High-sensitivity methane sensor composed of photonic quasi-crystal fiber based on surface plasmon resonance[J]. Journal of the Optical Society of America A, 38, 1438-1442(2021).

    [34] GANGWAR R K, SINGH V K. Highly Sensitive surface plasmon resonance based D-shaped photonic crystal fiber refractive index sensor[J]. Plasmonics, 12, 1367-1372(2017).

    [35] HOSSAIN B, HOSSAIN S, ISLAM S M R, et al. Numerical development of high performance quasi D-shape PCF-SPR biosensor: an external sensing approach employing gold[J]. Results in Physics, 18, 103281(2020).

    [36] HOSSAIN B, MAHENDIRAN T V, ABDULRAZAK L F, et al. Numerical analysis of gold coating based quasi D-shape dual core PCF SPR sensor[J]. Optical and Quantum Electronics, 52, 446(2020).

    [37] LIANG H, SHEN T, FENG Y, et al. A surface plasmon resonance temperature sensing unit based on a graphene oxide composite photonic crystal fiber[J]. IEEE Photonics Journal, 12, 7201811(2020).

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    Qiang LIU, Jin ZHAO, Yu-dan SUN, Wei LIU, Jian-xin WANG, Chao LIU, Jing-wei LV, Shi-miao WANG, Yu JIANG, CHU PAUL K. A novel methane and hydrogen sensor with surface plasmon resonance-based photonic quasi-crystal fiber[J]. Chinese Optics, 2023, 16(1): 174

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    Paper Information

    Category: Original Article

    Received: Apr. 12, 2022

    Accepted: --

    Published Online: Jul. 5, 2023

    The Author Email: Chao LIU (msm-liu@126.com)

    DOI:10.37188/CO.EN.2022-0006

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