課程介紹
課程大綱
OS7201 時域有限差分法於電磁光學分析 更新日期: 2024-03-06
課程目標
修習條件
主要教本
內容大綱
2. Electromagnetics and FDTD
Review of Maxwell’s Equations, Physical Boundary Conditions, Constitutive Relations, Flow of Maxwell’s Equations, Finite-Difference Approximation, The First FDTD Algorithm
3. Formulation and Implementation of 1D FDTD (I)
Yee grid scheme, Finite-Difference Approximation of Maxwell’s Curl Equations, Governing Equations for 1D FDTD, Derivation of Basic Update Equations, Implementation of Basic Update Equation
4. Formulation and Implementation of 1D FDTD (II)
Numerical Boundary Conditions, Grid Resolution, Courant Stability Condition, Perfect 1D Boundary Condition, Sources, Total-Field/Scattered-Field Soft Source, Fourier Transform, Reflectance and Transmittance, Sequence for Code Development, Convergence, Grid Dispersion, Incorporating Loss
5. Formulation and Implementation of 2D FDTD
From 3D to 2D Maxwell’s Equations, Update Equations, Boundary Conditions, FDTD Algorithm for 2D Simulations, Minimizing Simulation Time, 2Grid Technique, Fitting Structures to a Cartesian Grid
6. The Perfectly Matched Layer
Uniaxial Perfectly Matched Layer (UPML), Conventional PML, PML Parameters, Implementation of UPML in 2D FDTD, Ez Mode, TF/SF Source
7. Grating Diffraction and Plane-Wave spectrum
Wave Vectors, Phase Matching at An Interface, Waves in Periodic Media, Plane Wave Spectrum