Fundamentals and Applications
- Electric and Magnetic Fields and Waves
- BRIEF OVERVIEW
- WAVE REPRESENTATION
- Overview
- General Property
- Waves by Phasor Representation
- Phase Velocity
- MAXWELL’S EQUATIONS
- Faraday’s Law
- Ampere’s Law
- Gauss’s Law for Electric Field and Charges
- Gauss’s Law for Magnetic Field
- MAXWELL EQUATIONS IN DIELECTRIC MEDIA
- Maxwell Equations
- Wave Equation
- Boundary Conditions
- Reciprocity Theorems
- General Reciprocity Theorem
- Conjugate Reciprocity Theorem
- CURRENT CONTINUITY
- LOSSLESS TEM WAVES
- MAXWELL’S EQUATIONS IN TIME-HARMONIC AND PHASOR FORMS
- PLANE WAVES
- General Wave Equations
- time-Harmonic Wave Equation
- Electrical Transmission Lines
- Antennae
- Planar Optical Waveguides
- Three-Dimensional Optical Waveguides
- Optical Fibers: Single- and Few-Mode Structures and Guiding Properties
- Optical Fiber Operational Parameters
- Guided Wave Optical Transmission Lines: Transfer Functions
- Fourier Guided Wave Optics
- Introduction
- Background: Fourier Transformation
- Basic Transform
- Optical Circuitry Implementation
- Optical DFT by Mach–Zehnder Delay Interferometers (MZDIs)
- Fourier Transform Signal Flow and Optical Implementation
- AWG Structure and Characteristics
- Guided Wave Wavelet Transformer
- Wavelet Transformation and Wavelet Packets
- Fiber Optic Synthesis
- Synthesis Using Multimode Interference Structure
- Optical Orthogonal Frequency Division Multiplexing
- Nyquist Orthogonal Channels for Tbps Optical Transmission Systems
- Design of Optical Waveguides for Optical FFT and IFFT
- Appendix 9.1
- Appendix: Vector Analysis