1·According to traditional theory that Faraday rotation Angle was mainly due to the electric-dipole transition.
按照传统的理论,法拉第旋转角主要是由于电偶极跃迁所形成的。
2·The physical properties of the crystal are investigated such as its structure , Faraday rotation and intensity of magnetization etc.
对晶体的结构、法拉第旋转、光吸收特性及磁化强度等物理性质进行了研究。
3·The effect of Faraday rotation on the helicity computation using observations from the Solar Magnetic Field Telescope at the Huairou Solar Observing Station.
法拉第效应对利用怀柔磁场望远镜观测的矢量磁场计算电流螺度的影响。
4·One part is not effected by Faraday rotation, because of cancellation of rotating angels for two oppositing polarized waves, so it is called as ordinary wave.
波场仍分为两部分,一部分,因法拉第旋转角相互抵消,而不受影响,即寻常波。
5·With these equations, they have investigated the problem of Faraday rotation in a longitudinally magnetized ferrite rod with tapering cross-sections at both ends.
利用这组方程,作者研究了纵向磁化铁氧体柱中的法拉第旋转(铁氧体柱的两端是截面变化的圆锥)。
6·Faraday not only became Davy's chemical assistant, but eventually assumed his role. In 1821 he discovered electromagnetic rotation, the principle behind the electric motor.
法拉第不仅成了戴维的化学助手,而且最终自己也展露了头角。
7·Based on the nonreciprocal property of Faraday effect, we investigate the light output from optical reflection cavity filled with Faraday optical rotation medium.
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。
8·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.
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。