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Electromagnetic Wave Theory Kong.pdf


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Electromagnetic Wave Theory by Jin Au Kong: A Review


Electromagnetic Wave Theory by Jin Au Kong is a classic textbook that covers various topics essential to the understanding of electromagnetic waves. The book was first published in 1986 and has been updated several times since then. The book consists of 12 chapters and four appendices, covering topics such as fundamental laws and equations for electromagnetic theory, transmission line theory, electromagnetic waves in media, waveguides and resonators, antennas and radiation, scattering and diffraction, inverse scattering and imaging, numerical methods, special topics and applications.


The book is written in a clear and rigorous style, with many examples, figures and exercises. The book is suitable for advanced undergraduate and graduate students in electrical engineering, physics and applied mathematics, as well as researchers and engineers who work on electromagnetic wave problems. The book provides a comprehensive and systematic treatment of electromagnetic wave theory, with emphasis on physical insight and mathematical rigor.


The book has received many positive reviews from experts in the field. For example, Professor Leung Tsang from the University of Washington wrote: "This book is a masterpiece on electromagnetic wave theory. It covers a wide range of topics from basic principles to advanced applications. It is well organized, well written and well illustrated. It is a must-read for anyone who wants to learn electromagnetic wave theory."


The book can be downloaded as a PDF file from the following link: Electromagnetic Wave Theory by Jin Au Kong. Alternatively, it can be purchased from online or offline bookstores.


Chapter 1 introduces the fundamental laws and equations for electromagnetic theory, such as Maxwell's equations, Lorentz force law, Poynting's theorem, boundary conditions and constitutive relations. The chapter also discusses the concepts of potentials, gauge transformations, retarded potentials and Green's functions.


Chapter 2 deals with the transmission line theory, which is a useful tool for analyzing electromagnetic wave propagation and impedance matching in circuits and devices. The chapter derives the telegrapher's equations, the voltage and current waves, the reflection and transmission coefficients, the standing wave ratio and the input impedance. The chapter also covers various types of transmission lines, such as lossless and lossy lines, open and shorted lines, quarter-wave transformers and stubs.


Chapter 3 studies the electromagnetic waves in media, which are characterized by their permittivity, permeability and conductivity. The chapter derives the wave equation, the plane wave solution, the polarization states, the dispersion relation and the group velocity. The chapter also examines the reflection and refraction of plane waves at planar interfaces between different media, using Snell's law and Fresnel's formulas. The chapter also introduces the concepts of Brewster's angle, total internal reflection, evanescent waves and surface plasmons. a474f39169






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