Optical fiber sensors based on photonics crystal fiber loop mirrors

机译：基于光子晶体光纤环形镜的光纤传感器

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We summarize various sensors based on photonic crystal fiber loop mirrors proposed by our research team, including strain sensors, temperature sensors and curvature sensors. Both of highly birefringent and lowly birefringent photonic crystal fibers (PCFs) have been inserted into fiber loop mirrors (FLMs) as the sensing elements. A temperature-insensitive strain sensor with highly birefringent PCF based FLM has been realized and it has a strain sensitivity of 0.23 pm/µε in the range of 0–30 mε. For a low-cost, a demodulation is proposed by using a distributed-feedback (DFB) laser as the light source and an optical power meter instead of an expensive OSA. Strain and curvature sensors based on FLMs are also demonstrated by using a lowly birefringent PCF, which has a strain sensitivity of 0.457 pm/µε and a curvature sensitivity of 0.337 nm/ m⁻¹, respectively. Further, a novel and compact temperature sensor based on a FLM combined with an alcohol-filled highly birefringent PCF is proposed and experimentally demonstrated and it has a high sensitivity as high as 6.6 nm/°C.

机译：我们总结了由我们的研究团队提出的基于光子晶体光纤环形镜的各种传感器，包括应变传感器，温度传感器和曲率传感器。高双折射和低双折射光子晶体光纤（PCF）均已插入到光纤环形镜（FLM）中作为传感元件。已经实现了基于PCF的高度双折射的温度不敏感应变传感器，其应变灵敏度为0.23 pm / µε，范围为0–30mε。为了低成本，通过使用分布式反馈（DFB）激光器作为光源和光功率计来代替昂贵的OSA，提出了解调方法。还通过使用低双折射PCF演示了基于FLM的应变和曲率传感器，该PCF的应变灵敏度为0.457 pm / µε，曲率灵敏度为0.337 nm / m ^{-1 。此外，提出并实验证明了一种基于FLM的新型紧凑型温度传感器，该传感器与填充了醇的高双折射PCF结合使用，具有高达6.6 nm /°C的高灵敏度。}

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《Advanced Infocom Technology 2011 (ICAIT 2011), International Conference on》|2011年|p.1- 7|共7页
会议地点 Wuhan(CN)
作者
Zhao Chun-Liu; Qian Wenwen; Gong Huaping; Dong Xinyong;
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专利

1. A HIGHLY-BIREFRINGENT FIBER LOOP MIRROR TEMPERATURE SENSOR DEMODULATION BASED ON A LONG-PERIOD GRATING IN PHOTONIC CRYSTAL FIBER WITH DIFFERENTIAL PROCESSING [J] . Yunpeng Wang, Chun-Liu Zhao, Juan Kang, Microwave and optical technology letters . 2012,第1期

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2. Numerical analysis of optical logic gate based on nonlinear optical loop mirror with a photonic crystal fiber [J] . Sharma Sneha, Kumar Jitendra Journal of nonlinear optical physics & materials . 2015,第2期

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3. Degenerate four-wave mixing based all-optical wavelength conversion in a semiconductor optical amplifier and highly-nonlinear photonic crystal fiber parametric loop mirror [J] . Jianguo Liu, Tee Hiang Cheng, Yong kee Yeo, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2008,第21期

机译：在半导体光放大器和高度非线性的光子晶体光纤参量环形镜中基于简并四波混频的全光波长转换
4. Optical fiber sensors based on photonics crystal fiber loop mirrors [C] . Zhao Chun-Liu, Qian Wenwen, Gong Huaping, International Conference on Advanced Infocomm Technology . 2012

机译：基于光子晶体光纤环镜的光纤传感器
5. Analysis of the nonlinear optical loop mirror with feedback and birefringent fibers in the loop. [D] . Merchant, Clark Adrien. 2004

机译：分析在环路中具有反馈和双折射光纤的非线性光学环路镜。
6. Helicity Enhanced Torsion Sensor Based on Liquid Filled Twisted Photonic Crystal Fibers [O] . Feng Zhang, Ying Wang, Zhiyong Bai, 2020

机译：基于液体填充扭曲光子晶体光纤的螺旋度增强扭转传感器
7. 10-Gb/s Wavelength Transparent Optically Controlled Buffer Using Photonic-Crystal-Fiber-Based Nonlinear Optical Loop Mirror [O] . C. C. Lee, Student Member, P. K. A. Wai, 2015

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Optical fiber sensors based on photonics crystal fiber loop mirrors

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