High-sensitivity temperature sensor based on anti-resonance in high-index polymer-coated optical fiber interferometers

Lian Xiaokang; Wu Qiang; Farrell Gerald; Semenova Yuliya

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High-sensitivity temperature sensor based on anti-resonance in high-index polymer-coated optical fiber interferometers

机译：高灵敏度温度传感器基于高折射率聚合物涂层光纤干涉仪的防共振

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Compared to the multimode interference (MMI) effect, the anti-resonance (AR) effect does not rely on the multimode property of the optical waveguide. This Letter shows that fiber bending can suppress the MMI and can break the superposition of AR spectra of multiple modes in a high-index polymer-coated optical fiber interferometer based on a single-mode fiber-polymer-coated no-core fiber-single-mode fiber hetero-structure. This results in the dominance of the AR spectrum of an individual mode and consequently in periodic sharp transmission dips. As a result of this phenomenon and large thermo-optical and thermal expansion coefficients of the polymer, a compact, high-sensitivity and linear response temperature sensor with the sensitivity as high as -3.784 nm/degrees C has been demonstrated experimentally. (C) 2020 Optical Society of America

机译：与多模干扰（MMI）效应相比，防谐振（AR）效应不依赖于光波导的多模特性。这封信表明光纤弯曲可以抑制MMI，并且可以基于单模纤维聚合物涂覆的无核光纤 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 单纤维 - 模式纤维异质结构。这导致各个模式的AR光谱的优势，因此在周期性的尖锐传输倾斜中。由于这种现象和大型热光和热膨胀系数的聚合物，通过实验证明了具有高达-3.784nm /℃/℃的敏感性的紧凑，高灵敏度和线性响应温度传感器。（c）2020美国光学学会

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来源
《Optics Letters》 |2020年第19期|共4页
作者
Lian Xiaokang; Wu Qiang; Farrell Gerald; Semenova Yuliya;
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作者单位

Technol Univ Dublin Photon Res Ctr Dublin D08 X622 Ireland;

Northumbria Univ Dept Math Phys &

Elect Engn Newcastle Upon Tyne NE1 8ST Tyne &

Wear England;

Technol Univ Dublin Photon Res Ctr Dublin D08 X622 Ireland;

Technol Univ Dublin Photon Res Ctr Dublin D08 X622 Ireland;

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原文格式 PDF
正文语种 eng
中图分类计量学;光学;
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入库时间 2022-08-19 17:51:20

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专利

1. High-sensitivity temperature sensor based on anti-resonance in high-index polymer-coated optical fiber interferometers [J] . Lian Xiaokang, Wu Qiang, Farrell Gerald, Optics Letters . 2020,第19期

机译：高灵敏度温度传感器基于高折射率聚合物涂层光纤干涉仪的防共振
2. High-Sensitivity Fabry–Perot Interferometer High-Temperature Fiber Sensor Based on Vernier Effect [J] . Lei Xueqin, Dong Xiaopeng IEEE sensors journal . 2020,第10期

机译：高灵敏度法布里 - 珀罗干涉仪高温光纤传感器基于Vernier效果
3. High-sensitivity refractive index and temperature sensor based on cascading FBGs and droplet-like fiber interferometer [J] . Du Yong, Han Qun, Hu Haofeng, Sensors and Actuators, A. Physical . 2019,第期

机译：基于级联FBG和液滴状纤维干涉仪的高灵敏度折射率和温度传感器
4. Temperature-referenced high-sensitivity point-probe optical fiber chem-sensors based on cladding etched fiber Bragg gratings [C] . Kaiming Zhou, Xianfeng Chen, George Simpson, Conference on optical sensing . 2004

机译：基于包层蚀刻光纤布拉格光栅的温度参考的高灵敏度点探针光纤化学传感器
5. Optical fiber Fabry-Perot interferometer-based sensor instrumentation system for low magnetic field measurement. [D] . Oh, Ki Dong. 1997

机译：基于光纤法布里-珀罗干涉仪的传感器仪器系统，用于低磁场测量。
6. Optical Fiber Temperature and Torsion Sensor Based on Lyot-Sagnac Interferometer [O] . Li-Yang Shao, Xinpu Zhang, Haijun He, 2016

机译：基于Lyot-Sagnac干涉仪的光纤温度和扭转传感器
7. Miniature High-Sensitivity High-Temperature Fiber Sensor with a Dispersion Compensation Fiber-Based Interferometer [O] . Dong, Bo, Wei, Li, Zhou, Da-Peng 2009

机译：带有色散补偿光纤干涉仪的微型高灵敏度高温光纤传感器
8. Polarization effects in optical fiber current sensors based on Sagnac interferometers with 3(times)3 couplers. [R] . Rochford, K. B., Day, G. W., Forman, P. R. 1993

机译：基于具有3（3）个耦合器的sagnac干涉仪的光纤电流传感器中的偏振效应。

High-sensitivity temperature sensor based on anti-resonance in high-index polymer-coated optical fiber interferometers

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