Chapter One Some Basic Principles
1.1 Electromagnetic Duality
1.2 Theorem of Uniqueness
1.3 Principle of Equivalence
1.4 Theorem of Induction
1.5 Principle of Reciprocity
Chapter Three Modal Expansion Method——Cylindrical Waves
3.1 Cylindrical Wave Functions
3.2 Cylindrical Wave Radiation
3.3 Wave Transformation
3.4 Scattering of a Conducting Circular Cylinder
3.5 Wedge Scattering
Chapter Four Modal Expansion Method——Spherical Waves
4.1 Spherical Wave Functions
4.2 Wave Transformation
4.3 Scattering of a Sphere
4.4 Hertzian Dipoles in the Neighborhood of a Conducting Sphere
Chapter Five Hertzian Dipoles in Stratified Media
5.1 Theory and Formulation
5.2 Electromagnetic Fields in the Source Region
5.3 Transmission Matrices and Reflection Coefficients
5.4 Complex Amplitudes of the Fields in the Source Region
5.5 Sommerfeld Integrals and Discrete Complex Image Theory
Chapter Six Integral Equations and Method of Moments
6.1 Integral Equation in Frequency Domain
6.2 Integral Equation in Time Domain
6.3 Method of Moments
Chapter Seven High Frequency Methods
7.1 Introduction
7.2 Physical Optics Method
7.3 Geometrical Optics Method
7.4 Geometrical Theory of Diffraction
7.5 Saddle-Point Method
Chapter Eight Dyadic Green's Functions in Electromagneties
8.1 Introduction
8.2 Dyadic Analysis
8.3 The Dyadic Green's Functions in Electromagnetics
8.4 Dyadic Green's Function for a Half-Space
8.5 Dyadic Green's Function for a Medium-Covered Microstrip Patch Antenna
AppendixSome Mathematical Theorems and Formulas Used in the Proof of Eq.(7.2 6)
References
