Femtosecond laser fabricated multimode fiber sensors interrogated by optical-carrier-based microwave interferometry technique for distributed strain sensing

SPIE OPTO Pub Date : 2016-03-16 DOI:10.1117/12.2208912

Liwei Hua, Yang Song, Jie Huang, Baokai Cheng, Wenge Zhu, Hai Xiao

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引用次数: 2

Abstract

A multimode fiber (MMF) based cascaded intrinsic Fabry-Perot interferometers (IFPIs) system is presented and the distributed strain sensing has been experimentally demonstrated by using such system. The proposed 13 cascaded IFPIs have been formed by 14 cascaded reflectors that have been fabricated on a grade index MMF. Each reflector has been made by drawing a line on the center of the cross-section of the MMF through a femtosecond laser. The distance between any two adjacent reflectors is around 100 cm. The optical carrier based microwave interferometry (OCMI) technique has been used to interrogate the MMF based cascaded FPIs system by reading the optical interference information in the microwave domain. The location along with the shift of the interference fringe pattern for each FPI can be resolved though signal processing based on the microwave domain information. The multimode interference showed very little influence to the microwave domain signals. By using such system the strain of 10-4 for each FPI sensor and the spatial resolution of less than 5 cm for the system can be easily achieved.

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飞秒激光制造的多模光纤传感器采用基于光载波的微波干涉测量技术进行分布式应变传感

提出了一种基于多模光纤(MMF)的级联本构法布里-珀罗干涉仪(IFPIs)系统，并对该系统的分布式应变传感进行了实验验证。提议的13级联ifpi由14个级联反射器组成，这些反射器已在等级指数MMF上制造。每个反射器都是通过飞秒激光在MMF横截面的中心画一条线制成的。任意两个相邻反射器之间的距离约为100厘米。基于光载波的微波干涉测量技术(OCMI)通过读取微波域的光干涉信息来询问基于MMF的级联fpi系统。通过基于微波域信息的信号处理，可以分辨出每个FPI的位置随干涉条纹图的移位。多模干扰对微波域信号的影响很小。利用该系统可以很容易地实现每个FPI传感器的10-4应变和小于5 cm的空间分辨率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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