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Passive Microwave Components and Antennas
Edited by Vitaliy Zhurbenko, ISBN 978-953-307-083-4, Hard cover, 556 pages, Publisher: InTech, Published: April 01, 2010 under CC BY-NC-SA 3.0 license, in subject Electrical and Electronic Engineering
DOI: 10.5772/226
Modelling and computations in electromagnetics is a quite fast-growing research area. The recent interest in this field is caused by the increased demand for designing complex microwave components, modeling electromagnetic materials, and rapid increase in computational power for calculation of complex electromagnetic problems. The first part of this book is devoted to the advances in the analysis techniques such as method of moments, finite-difference time- domain method, boundary perturbation theory, Fourier analysis, mode-matching method, and analysis based on circuit theory. These techniques are considered with regard to several challenging technological applications such as those related to electrically large devices, scattering in layered structures, photonic crystals, and artificial materials. The second part of the book deals with waveguides, transmission lines and transitions. This includes microstrip lines (MSL), slot waveguides, substrate integrated waveguides (SIW), vertical transmission lines in multilayer media as well as MSL to SIW and MSL to slot line transitions.
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Book contents
- Chapter 1Boundary Perturbation Theory for Scattering in Layered Rough Structures
- Chapter 2Numerical Analysis of Planar Periodic Multilayer Structures by Method of Moments
- Chapter 3The High-Order Symplectic Finite-Difference Time-Domain Scheme
- Chapter 4Nonlocal Electromagnetic Media: A Paradigm for Material Engineering
- Chapter 5Numerical Modeling of Photonic Crystal Circuits Using Fourier Series Expansion Method Based on Floquet-Modes
- Chapter 6Computer Aided Design of Waveguide Devices by Mode-Matching Methods
- Chapter 7Circuital Analysis of Cylindrical Structures Applied to the Electromagnetic Resolution of Resonant Cavities
- Chapter 8Solving Inverse Scattering Problems Using Truncated Cosine Fourier Series Expansion Method
- Chapter 9Slot Optical Waveguides Simulations and Modeling
- Chapter 10Analysis and Design of SIW Components Based on H-Plane Planar Circuit Approach
- Chapter 11Design and Modeling of Microstrip Line to Substrate Integrated Waveguide Transitions
- Chapter 12Microstrip-Slot Transition and Its Applications in Multilayer Microwave Circuits
- Chapter 13Vertical Transmission Lines in Multilayer Substrates and Highly-Integrated Filtering Components Based on These Transmission Lines
- Chapter 14Impedance Transformers
- Chapter 15Design of Compact Planar Ultra-Wideband Bandpass Filters
- Chapter 16A Dual-Mode Wide-Band Bandpass Filter Using the Microstrip Loop Resonator with Tuning Stubs
- Chapter 17Tunable Dielectric Microwave Devices with Electromechanical Control
- Chapter 18Dual Mode Microstrip Ring Resonator with Composite-Right/Left-handed Line
- Chapter 19Electrically Small Resonators for Metamaterial and Microwave Circuit Design
- Chapter 20Compact CPW Metamaterial Resonators for High Performance Filters
- Chapter 21Passive Diplexers and Active Filters Based on Metamaterial Particles
- Chapter 22Multifrequency and Multifunction Metamaterial-Loaded Printed Antennas
- Chapter 23Wideband Planar Plate Monopole Antenna
- Chapter 24Collinear Microstrip Patch Antennas
- Chapter 25Design of Non-Uniformly Excited Linear Slot Arrays Fed by Coplanar Waveguide