基于光的偏振特性、马吕斯定理和法拉第旋光效应,采用同光源双光路检测,实现了大量程直线位移的测量。
Based on characteristics of optical polarizing, Malus law, and Faraday optical rotation, a long-range displacement detector is realized by same light source and double light route.
根据法拉第磁光效应的非互易性,分析了旋光反射腔的光强输出特性,表明这种反射腔具有旋光增强效应。
Based on the nonreciprocal property of Faraday effect, we investigate the light output from optical reflection cavity filled with Faraday optical rotation medium.
法拉第磁光效应发生的物质基础是磁光介质,磁致旋光效应正是线偏光与该介质发生作用的结果。
The material base is magneto-optic material that Faraday magneto-optic effect brings about, which is the result that plane polarized light interact between magneto-optic material.
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