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source: CEM Lectures 2014年2月3日
Prerequisite Lectures: Basic EM Theory and "Computational Electromagnetics"
Lecture 1 (EM21) -- Preliminary topics in EM This is a simple lecture reviewing some very basic electromagnetic principles. It also covers construction of derivative operators on scalar (single function) grids with Neuman boundary conditions. 48:58
Lecture 2 (EM21) -- Lorentz and Drude models 57:52
Lecture 3 (EM21) -- Nonlinear and anisotropic materials 47:13
Lecture 4 (EM21) -- Transmission lines in anisotropic media 52:50
Lecture 5 (EM21) -- Coupled-mode theory 41:18
Lecture 6 (EM21) -- Coupled-mode devices 44:47
Lecture 7 (EM21) -- Theory of periodic structures 54:38
Lecture 8 (EM21) -- Calculation examples of periodic structures 26:56
Lecture 9 (EM21) -- Diffraction gratings 49:55
Lecture 10 (EM21) -- Subwavelength gratings 39:58
Lecture 11 (EM21) -- Guided-mode resonance 37:03
Lecture 12 (EM21) -- Introduction to engineered materials 30:50
Lecture 13 (EM21) -- Metamaterials 50:36
Lecture 14 (EM21) -- Photonic crystals (band gap materials) 51:33
Lecture 15 (EM21) -- Homogenization and parameter retrieval 1:09:46
Lecture 16 (EM21) -- Transformation Electromagnetics 44:22
Lecture 17 (EM21) -- Holographic lithography 48:27
Lecture 18 (EM21) -- Synthesis of spatially variant lattices 1:03:39
Lecture 19 (EM21) -- Interfacing MATLAB with CAD 55:34
Lecture 20 (EM21) -- Frequency selective surfaces 29:15
Lecture 21 (EM21) -- Surface waves 47:14
Lecture 22 (EM21) -- Slow waves 40:04
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