【摘要】 在大学物理的波动光学教学中,对于多光束的叠加干涉一般以阐述光程差为主,不利于直观地反映光学系统的光学特性。如何更直观地反映电磁波在多层介质上的传播性质,对于深入理解物理基本概念、培养学生的创新能力和"学以致用"的能力具有重要意义。基于光学传输矩阵法处理电磁波在多层均匀介质中的传播,通过建立界面矩阵和传播矩阵,导出多层均匀介质系统的总的传输矩阵,进而得到系统的反射系数和透射系数,可以直观地分析电磁波在多层介质分界面上的传播性质。本文通过增反膜和分布式布拉格反射器(DBR)两个实际的案例,结合传输矩阵思想和Matlab编程,从反射率和透射率的角度直观展示了电磁波在多层介质分界面上的传播性质和光学系统的性质。更多还原

【Abstract】 In the teaching of wave optics in college physics,the optical path difference is mainly described for the superposition interference of multiple beams,which is not conducive to the intuitive reflection of the optical characteristics of the optical system.How to more intuitively reflect the propagation properties of electromagnetic waves in multi-layered media is of great significance for understanding the basic concepts of physics,cultivating students’innovative ability and the ability of"learning for application".The propagation of electromagnetic wave in multi-layered homogeneous medium is studied based on optical transmission matrix.Through the establishment of the interface matrix and the propagation matrix,the total transfer matrix of the multi-layered medium system is derived.Then the reflection coefficient and transmission coefficient of the system can be obtained.In this paper,through two practical cases of reflecting film and distributed Bragg reflector(DBR),combined with the idea of transmission matrix and MATLAB programming,the propagation properties of electromagnetic wave on the interface of multi-layered media and the properties of optical system are visually demonstrated from the perspective of reflectivity and transmittance.更多还原