适合于与光子晶体与原子相互作用系统的研究,而经典电磁场理论适合于不需要考虑原子运动细节的情况。到目前为止,光子晶体的研究绝大部分都采用的是经典的电磁场理论。
基于经典电磁场理论的光子晶体研究中,以平面波展开方法,时域有限差分法,有限元方法,传输矩阵方法(转移矩阵方法),多重散射方法使用得最多。
4 本课程的教学内容 (1) Introduction
(2) Fundamentals of Electromagnetic Theory of Light Waves (3) Fundamentals of the Physics of Solid Crystals (4) Photonic Crystals and their Classification
(5) Theory and Simulation of Photonic Crystals (Including 1D,2D,3D; TMM, PWE, FDTD,
FEM, MSM; Including RSoft software) (6) Application of Photonic Crystals (7) Fabrication of Photonic Crystals
(8) Experimental System of Photonic Crystals
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