| Contents | |
| Chapter 1 | Introduction |
| Introduction; Time domain and frequency domain methods; Survey of electromagnetics analysis methods; Finite Element Integral Equation Method (FEIEM); The Method of Moments | |
| Chapter 2 | The frequency domain: Method of Moments |
| Introduction; The Method of Moments for EM field; Frequency-time domain transformation; Application examples; Frequency sampling; Frequency sampling using adaptive integration; Application example; Frequency data from time domain waveform; Chapter summary | |
| Chapter 3 | Time domain Finite Element Integral Equation Method |
| Time domain Hall n integral equation; Finite Element Integral Equation Method | |
| Chapter 4 | Transient analysis of wire antennas |
| Introduction; Time domain approach; Wire transient numerical examples | |
| Chapter 5 | Transient analysis of transmission lines |
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Time domain analysis; Frequency domain analysis |
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| Chapter 6 | Transient analysis of lightning electromagnetics |
| Time domain model of the lightning channel; Lightning induced overvoltage along the line; Numerical results; Closure | |
| Chapter 7 | Transients on printed circuit boards (PCBs) |
| Introduction; Problems in PCB modelling; Summary | |
| Chapter 8 | Interaction of the human body with electromagnetic fields |
| Introduction; Equivalent antenna model of the human body; Frequency domain modelling of the human body; The boundary element solution of the Pocklington equation; Time domain modelling of the human body; Solution of the time domain Hall n integral equation; Frequency domain examples; Time domain examples | |