Five special topics in Electromagnetics are covered in this book which can be taught as a graduate course in Electromagnetics. The prerequisite to understand this book is some experience in undergraduate courses on this subject.
The format of this book is somewhat unusual because the material is presented with detailed mathematical derivation, with an intention for self-taught students and researchers to read this book. The special topics covered in this book are becoming more popular in research areas of interaction of Electromagnetic field with material bodies, the practical applications of Electromagnetic wave in biomedical engineering, and the radar target identification.
【目次】
Chapter 1 General Maxwell s Equations and Solutions
Modified Maxwell s Equations with Magnetic Source Terms
General Solutions of Maxwell s Equations in Heterogeneous Multiple Media
Mathematical Derivation of Equivalence Principle
Applications
Chapter 2 Vector Wave Functions And Applications
Wave Equations
Spherical Scalar Wave Functions
Spherical Vector Wave Functions
Scattering of a Conducting Sphere 组 Application
Chapter 3 Dyadic Green s Functions and Applications
Dyadic Analysis
Dyadic Green s Function
Dyadic Green s Function in Source Region or Conducting Medium
Applications of Dyadic Green s Function
Physical Picture of Dyadic Green s Function in Source Region
Chapter 4 Biomedical Application of Electromagnetic Waves
Microwave Life-Detection Systems
R.F. Life-Detection Systems for Searching Human Subjects Under Earthquake Rubble or Behind Barrier
Quantification of Interaction Between ELF-LF Electric Fields and Human Bodies
Chapter 5 Radar Target Identification with Extinction-pulse (E-pulse) Method
Radar Target Identification by E-pulse Method — Time-Domain Analysis
E-Pulse Method — Frequency Domain Analysis
Application of E-pulse Technique to Early-Time Target Response