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High spatial resolution fiber-optic Fizeau interferometric strain sensor based on an in-fiber spherical microcavity

机译：基于光纤内球形微腔的高空间分辨率光纤Fizeau干涉式应变传感器

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摘要

We present a fiber-optic Fizeau interferometric strain sensor consisting of an in-fiber spherical microcavity of 39 mu m in diameter. The spherical microcavity was formed by splicing a normal single-mode fiber with a hollow-core photonic crystal fiber. We demonstrate that strain sensing can be realized by using the interference between the light signals reflected by the front and rear surfaces of the sphere. Experiments have shown that the strain sensor has a strain sensitivity of 3.36 pm/mu epsilon and a temperature sensitivity of 1.35 pm/degrees C. (C) 2008 American Institute of Physics.

机译：我们提出了一种光纤Fizeau干涉式应变传感器，该传感器由直径39微米的光纤内球形微腔组成。球形微腔是通过将普通的单模光纤与空心光子晶体光纤拼接而成的。我们证明了可以通过利用球体前后表面反射的光信号之间的干涉来实现应变传感。实验表明，应变传感器的应变敏感度为3.36 pm / muε，温度敏感度为1.35 pm /℃。（C）2008美国物理研究所。

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Li E; Peng Gang-Ding Electrical Engineering Telecommunications Faculty of Engineering UNSW; Ding X;
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1. High spatial resolution fiber-optic Fizeau interferometric strain sensor based on an in-fiber spherical microcavity [J] . Enbang Li, Gang-Ding Peng, Xin Ding Applied Physicsletters . 2008,第10期

机译：基于光纤内球形微腔的高空间分辨率光纤Fizeau干涉应变传感器
2. Spherical microcavity-based membrane-free Fizeau interferometric acoustic sensor [J] . Han Chunyang, Zhao Chenyu, Ding Hui, Optics Letters . 2019,第15期

机译：基于球形微胶囊的膜无离外道干涉声学传感器
3. Demodulation algorithm for spatial-frequency-division-multiplexed fiber-optic Fizeau strain sensor networks [J] . Y. J. Rao, X. J. Wang, T. Zhu, Optics Letters . 2006,第6期

机译：空分频多路光纤斐索应变传感器网络的解调算法
4. A Novel Spatial-Frequency-Multiplexed Fiber-Optic Fizeau Strain Sensor System [C] . Y. J. Rao, J. Jiang, C. X. Zhou Advanced Sensor Systems and Applications II pt.1 . 2004

机译：一种新型的空频多光纤菲索应变传感器系统
5. High-Sensitivity Thermally Stable Interferometric Acoustic Sensors and Fiber-Optic Sensor Networks for Remote Sensing Applications [D] . Akkaya, Onur Can. 2012

机译：用于遥感应用的高灵敏度热稳定的干涉式声学传感器和光纤传感器网络
6. Sensitivity-Enhanced Extrinsic Fabry–Perot Interferometric Fiber-Optic Microcavity Strain Sensor [O] . Zhibo Ma, Shaolei Cheng, Wanying Kou, 2019

机译：灵敏度增强的外在法布里-珀罗干涉式光纤微腔应变传感器
7. Design of a fiber-optic quasi-distributed strain sensors ring network based on a white-light interferometric multiplexing technique [O] . Yuan L, Zhou L, Jin W, 2002

机译：基于白光干涉复用技术的光纤准分布式应变传感器环网设计
8. Adaptive Compensation of Atmospheric Turbulence Utilizing an Interferometric Wave-front Sensor and a High Resolution MEMS-based Spatial Light Modulator [R] . Baker, K., Stappaerts, E., Gavel, D., 2004

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High spatial resolution fiber-optic Fizeau interferometric strain sensor based on an in-fiber spherical microcavity

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