利用法拉第磁光效应可以设计光纤磁场传感器。
Fiber magnetic field sensor may be achieved by using Faraday magneto optic effect.
分析了内置式光纤法布里珀罗磁场传感器的灵敏度及光源线宽对灵敏度的影响。
The sensitivity of intrinsic fiber optic Fabry Perot (F P) magnetic sensor is studied and the influence of linewidth of light source is discussed.
本文介绍了基于偏振效应的光纤光栅磁场传感器的工作机理。
The working principle of fiber grating sensors for magnetic field measurement based on polarization effect is present in this paper.
文章概述了在强电磁场中用红外辐射光纤传感器测量温度的原理和实验装置。
In this paper, the principle and the experimental structure to measure temperature with optical fiber sensor of infrared radiation in intensive electromagnetic field are described.
光纤传感器可以工作高温、腐蚀性、强电磁场及易燃易爆的危险恶劣环境中。
Optical fiber sensors can work in high temperature, causticity, strong magnetic field, inflammable and explosive environmental extremes.
采用琼斯矩阵法分析了法拉第旋转镜消除偏振诱导信号衰落的原理,阐述了基于磁致伸缩的光纤迈克耳孙干涉型磁场传感器基本原理。
The principle that Faraday rotator mirror eliminates polarization-induced fading was analyzed by means of Jones matrix. And the basic principle of the sensor was described.
采用琼斯矩阵法分析了法拉第旋转镜消除偏振诱导信号衰落的原理,阐述了基于磁致伸缩的光纤迈克耳孙干涉型磁场传感器基本原理。
The principle that Faraday rotator mirror eliminates polarization-induced fading was analyzed by means of Jones matrix. And the basic principle of the sensor was described.
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