基于偏振度检测的光纤电流传感方案


Autoria(s): 刘峰; 叶青; 耿健新; 瞿荣辉; 方祖捷
Data(s)

2007

Resumo

本文提出了一种将光学谐振腔中多次来回反射所产生的法拉第旋转积累效应转化为光学信号偏振度变化的光纤电流传感方案。这种方案的主要优点是可以克服环境等因素的扰动带来偏振态变化所产生的影响。文中对所提出方案的特性进行了简单的理论分析和模拟计算,并给出了相应的实验结果验证。

A novel fiber-optic current sensing scheme is proposed by converting the Faraday rotation to the optical signal's degree of polarization (DOP) change. In this scheme, the lightwave passes through a fiber resonant cavity multiply and experiences Faraday rotation simultaneously. Its main merit is immunity from the environment disturbance to the fiber used in ordinary Faraday rotation sensor. Brief theoretical analysis and simulation are given to show its basic characteristics. Experimental results are demonstrated and the feasibility of the proposed method is also shown.

Identificador

http://ir.siom.ac.cn/handle/181231/1390

http://www.irgrid.ac.cn/handle/1471x/10220

Idioma(s)

英语

Fonte

刘峰;叶青;耿健新;瞿荣辉;方祖捷.基于偏振度检测的光纤电流传感方案,Chin. Opt. Lett.,2007,5(5):267-269

Palavras-Chave #传感器 #光纤电流传感 #偏振度 #光纤谐振腔 #Faraday effect #Light polarization #Optical fibers
Tipo

期刊论文