Academics
Dop Course Outline
OS7131 Special Topics on Electromagnetic Theory
Last Revised: 2018-04-11
Course Objectives
As part of this course, students will develop a solid theoretical background on electromagnetic principles in common photonic devices and interaction of electromagnetic radiation with matter.
Prerequisite
Textbook Lecture notes.The hard copy for each lecture will be available before the class starts.
There will be NO textbook for this course; however,the teaching materials will mainly come from the references listed below:
1. Donald. L. Lee, Electromagnetic Principles of Integrated Optics (Wiley 1986)
2. S.-L. Chuang, Physics of Optoelectronic Devices (John Wiley & Sons, 1995)
3. P. Yeh, Optical Waves in Layered Media (Wiley_Interscience 2002)
4. A. Yariv and P. Yeh, Optical Waves in Crystals ( Wiley_Interscience 2005)
5. T. K. Gaylord and M. G. Moharam, Proc. IEEE, 73, 894 (1985)
Topical Outline 1. Basic Electromagnetic Theory
2. The Wave Equation in Source-Free Isotropic Media
3. Interaction of Electromagnetic Radiation with Matter
4. Coupled-Mode Theory
5. Grating Diffraction
Prerequisite
Textbook Lecture notes.The hard copy for each lecture will be available before the class starts.
There will be NO textbook for this course; however,the teaching materials will mainly come from the references listed below:
1. Donald. L. Lee, Electromagnetic Principles of Integrated Optics (Wiley 1986)
2. S.-L. Chuang, Physics of Optoelectronic Devices (John Wiley & Sons, 1995)
3. P. Yeh, Optical Waves in Layered Media (Wiley_Interscience 2002)
4. A. Yariv and P. Yeh, Optical Waves in Crystals ( Wiley_Interscience 2005)
5. T. K. Gaylord and M. G. Moharam, Proc. IEEE, 73, 894 (1985)
Topical Outline 1. Basic Electromagnetic Theory
2. The Wave Equation in Source-Free Isotropic Media
3. Interaction of Electromagnetic Radiation with Matter
4. Coupled-Mode Theory
5. Grating Diffraction
