Ebook: Electromagnetic Wave Theory for Boundary-Value Problems: An Advanced Course on Analytical Methods

Electromagnetic wave theory is based on Maxwell's equations, and electromagnetic boundary-value problems must be solved to understand electromagnetic scattering, propagation, and radiation. Electromagnetic theory finds practical applications in wireless telecommunications and microwave engineering. This book is written as a text for a two-semester graduate course on electromagnetic wave theory. As such, Electromagnetic Wave Theory for Boundary-Value Problems is intended to help students enhance analytic skills by solving pertinent boundary-value problems. In particular, the techniques of Fourier transform, mode matching, and residue calculus are utilized to solve some canonical scattering and radiation problems.

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Electromagnetic wave theory is based on Maxwell's equations, and electromagnetic boundary-value problems must be solved to understand electromagnetic scattering, propagation, and radiation. Electromagnetic theory finds practical applications in wireless telecommunications and microwave engineering. This book is written as a text for a two-semester graduate course on electromagnetic wave theory. As such, Electromagnetic Wave Theory for Boundary-Value Problems is intended to help students enhance analytic skills by solving pertinent boundary-value problems. In particular, the techniques of Fourier transform, mode matching, and residue calculus are utilized to solve some canonical scattering and radiation problems.

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Electromagnetic wave theory is based on Maxwell's equations, and electromagnetic boundary-value problems must be solved to understand electromagnetic scattering, propagation, and radiation. Electromagnetic theory finds practical applications in wireless telecommunications and microwave engineering. This book is written as a text for a two-semester graduate course on electromagnetic wave theory. As such, Electromagnetic Wave Theory for Boundary-Value Problems is intended to help students enhance analytic skills by solving pertinent boundary-value problems. In particular, the techniques of Fourier transform, mode matching, and residue calculus are utilized to solve some canonical scattering and radiation problems.

Content:
Front Matter....Pages I-XVI
Electromagnetic Basics....Pages 1-20
Plane Wave Propagation....Pages 21-48
Waveguides....Pages 49-81
Cavity Resonators and Coupler....Pages 83-109
Propagation in Anisotropic Media....Pages 111-123
Electromagnetic Theorems....Pages 125-145
Wave Scattering....Pages 147-180
Green’s Functions: Fundamentals....Pages 181-212
Green’s Functions: Applications....Pages 213-233
Antenna Radiation....Pages 235-275
Radiation Above Half Space....Pages 277-291
Back Matter....Pages 293-314

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Electromagnetic wave theory is based on Maxwell's equations, and electromagnetic boundary-value problems must be solved to understand electromagnetic scattering, propagation, and radiation. Electromagnetic theory finds practical applications in wireless telecommunications and microwave engineering. This book is written as a text for a two-semester graduate course on electromagnetic wave theory. As such, Electromagnetic Wave Theory for Boundary-Value Problems is intended to help students enhance analytic skills by solving pertinent boundary-value problems. In particular, the techniques of Fourier transform, mode matching, and residue calculus are utilized to solve some canonical scattering and radiation problems.

Content:
Front Matter....Pages I-XVI
Electromagnetic Basics....Pages 1-20
Plane Wave Propagation....Pages 21-48
Waveguides....Pages 49-81
Cavity Resonators and Coupler....Pages 83-109
Propagation in Anisotropic Media....Pages 111-123
Electromagnetic Theorems....Pages 125-145
Wave Scattering....Pages 147-180
Green’s Functions: Fundamentals....Pages 181-212
Green’s Functions: Applications....Pages 213-233
Antenna Radiation....Pages 235-275
Radiation Above Half Space....Pages 277-291
Back Matter....Pages 293-314
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