摘要
本文研究了光在接近正入射条件下,进入一个由一片单轴双折射板与一片法拉第旋转平面平行板密接系统中的传播规律.利用双折射效应,将一束偏振光分成两束(寻常光和非寻常光).由于法拉第旋转效应,两束透射光的偏振面将旋转一定的角度,当再进入双折射板时,光束的数目将增加一倍.光在腔内的多次反射与透射,光束的数目将呈几何级数地增加。
This paper studied the propagating process of light in a uniaxial birefringent and a faraday rotatory plane parallel plate under nearly normal incidence. Due to birefringence, a beam of polarized light splits into two beams (one ordinary and the other extraordinary). The planes of polarization of the two refracted beams will rotate a certain angle because of faraday rotatory effect. When they go into birefringent plate again, the number of the beams will be doubled. The light is reflected and refracted many times in these two plates. The number of beams is increasing in geometric series and multiple beams interference is produce.
出处
《华北工学院学报》
1996年第2期96-99,共4页
Journal of North China Institute of Technology
