正交偏振光纤二维振动矢量传感机理与组网技术研究

项目名称： 正交偏振光纤二维振动矢量传感机理与组网技术研究

项目编号： No.61205080

项目类型： 青年科学基金项目

立项/批准年度： 2013

项目学科： 信息四处

项目作者： 郭团

作者单位： 暨南大学

项目金额： 28万元

中文摘要： 本项目针对目前国际上光纤振动传感器振动方向识别的难点问题，研究基于多模倾斜光纤光栅正交偏振奇模探测的光纤矢量振动传感技术，掌握多模倾斜光纤光栅包层模偏振激励机理与模式耦合特性，提高光纤偏振模对振动方向的感知力，利用正交偏振解调技术与矢量合成分析方法实现基于单一光纤光栅的二维振动方向识别。与此同时，通过优化光栅结构与写制工艺，压缩单个传感器占用带宽，并配合高速编码调制技术，实现传感器的波分复用与时分复用。本项目将解决光纤偏振模式振动方向识别、传感器结构优化与制作、传感器复用等关键科学和技术问题，实现一种具有自主知识产权的高灵敏度、方向可识别、可组网的光纤矢量振动传感器技术。

中文关键词： 光纤传感器；矢量振动传感；组网复用；；

英文摘要： The identification of vibration direction is one of the key problems in the research of vibration sensors worldwide. The project proposes a new technology based on orthogonal polarimetric odd-cladding-modes monitoring in multi-mode tilted fiber Bragg grating (MM-TFBG) to achieve an orientation-recognized vector vibration measurement. The research includes the theoretical study of polarization dependence of cladding modes in MM-TFBG and their sensing characters of vibration with different orientations, and ultilzes the vector analysis method to achieve two-dimensional vector vibration measurement by using only one MM-TFBG. Meanwhile, by optimizing the grating spectrum (compress the MM-TFBG's bandwidth to several nanometers) together with high-speed code modulation technique (use VCSEL as light source), we will study the ability of multiplexing a large number of such sensors along a single fiber via wavelength-division multiplexing (WDM) and time-division multiplexing (TDM) technique. The project aims to achieve an orthogonal-polarimetric fiber-optic vector vibroscope with the desirable features including compact size, high sensitivity, orientation identifiable and multiplexing capability.

英文关键词： Optical fiber sensors；Vector vibroscope；Multiplexing technology；；