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Temperature-independent fiber Bragg grating micro-displacement sensor

机译：温度无关的光纤布拉格光栅微位移传感器

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摘要

Temperature-independent micro-displacement measurement using a single fiber Bragg grating based on broadenedreflection spectrum is proposed and experimentally demonstrated. The structure of specially designed bending cantilever beam (BCB) is proposed. The BCB induces axial strain gradient along the sensing FBG, resulting in a Bragg bandwidth modulation. The broadening of FBG spectrum bandwidth and the reflected optical power correspond to micro-displacement changes, insensitive to spatially uniform temperature variations. For a displacement variation of 20mm and a temperature change from 20 deg C to 100 deg C, the micro-displacement measurement deviation error is +-0.12mm without any temperature compensation. Through optical power detecting by a pin photodiode (PD), the micro-displacement sensor avoids complex demodulation process and potentially costs little.

机译：提出了使用基于广泛的reflection谱的单纤维布拉格光栅的温度无关的微偏移测量，并通过实验证明。提出了专门设计的弯曲悬臂梁（BCB）的结构。 BCB沿着感测FBG诱导轴向应变梯度，从而产生布拉格带宽调制。 FBG频谱带宽和反射光功率的扩展对应于微位移变化，对空间均匀的温度变化不敏感。对于20mm的位移变化和从20℃至100℃的温度变化，微位移测量偏差误差为+ -0.12mm而无需任何温度补偿。通过通过PIN光电二极管（PD）检测光功率，微位移传感器避免复杂的解调过程，并且可能花费很少。

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来源
《Conference on Advanced Laser Technologies 》|2006年||共7页
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作者
Tuan Guo; Qida Zhao; Lifang Xue; Guiling Huang; Shiyu Gao; Yu Yan; Luming Zhao; Lihui Liu; The International Society for Optical Engineering;
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中图分类激光技术、微波激射技术 ;
关键词
Bending cantilever beam; fiber Bragg gratings; micro-displacement sensor; temperature-independent;

机译：弯曲悬臂梁;光纤布拉格光栅;微排量传感器;温度无关;

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专利

1. Temperature-independent bending sensor with tilted fiber Bragg grating interacting with multimode fiber [J] . Y.X. Jin, C.C. Chan, X.Y. Dong, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2009 ,第19期

机译：倾斜光纤布拉格光栅与多模光纤相互作用的温度无关弯曲传感器
2. Temperature-independent refractive index sensor based on fiber Bragg grating and spherical-shape structure [J] . Gu Mengyao, Yuan Shuo, Yuan Qiping, Optics and Lasers in Engineering . 2019 ,第APRa期

机译：基于光纤布拉格光栅和球形结构的温度无关折射率传感器
3. Temperature-independent fiber-Bragg-grating-based atmospheric pressure sensor [J] . Zhiguo Zhang, Chunyan Shen, Luming Li Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2018 ,第期

机译：温度无关的光纤 - 布拉格 - 光栅的大气压传感器
4. Temperature-independent fiber Bragg grating micro-displacement sensor [C] . Tuan Guo, Qida Zhao, Lifang Xue, Conference on Advanced Laser Technologies . 2006

机译：温度无关的光纤布拉格光栅微位移传感器
5. Photosensitivity of germanium-doped silica fibers, mask fabrication of fiber Bragg gratings, and their application as a strain sensor. [D] . Prohaska, John Dennis. 1993

机译：掺锗二氧化硅纤维的光敏性，布拉格光栅的掩模制造及其在应变传感器中的应用。
6. Temperature-Independent Fiber Inclinometer Based on Orthogonally Polarized Modes Coupling Using a Polarization-Maintaining Fiber Bragg Grating [O] . Dan Su, Xueguang Qiao, Hangzhou Yang, 2014

机译：基于正交偏振模式耦合的保偏光纤布拉格光栅的温度无关光纤倾角仪
7. TEMPERATURE-INDEPENDENT FIBER BRAGG GRATING TILT SENSOR [O] . N. Kim, T. Kim, B. Lee, 2010

机译：温度独立的光纤布拉格光栅倾斜传感器
8. Hybrid Fiber Bragg Grating/Long Period Fiber Grating Sensor forStrain/Temperature Discrimination [R] . Kersey, A. D., Patrick, H. J. 1997

机译：用于链/温度鉴别的混合光纤布拉格光栅/长周期光纤光栅传感器

Temperature-independent fiber Bragg grating micro-displacement sensor

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