Title: Electromagnetic Waves, Materials, and Computation with MATLAB, 2nd Edition, (2 Volume Set) Author: Dikshitulu K. Kalluri ISBN: 1498733239 / 9781498733236 Format: Hard Cover Pages: 1014 Publisher: CRC Press Year: 2017 Availability: 2 to 3 weeks
Description
Contents
This two-volume set consists of "Principles of Electromagnetic Waves and Materials, Second Edition" and "Advanced Electromagnetic Computation, Second Edition". Volume I takes an integrative approach to the subject of electromagnetics by supplementing quintessential "old school" information and methods with MATLAB® software. Volume II consists of advanced electromagnetic computation which focuses on Algorithms of Finite Differences, Moment Method, Finite Element method and Finite Difference Time Domain method. Hand-computed simple examples and MATLAB-coded simple examples with only a few elements are used to explain the concepts behind the algorithms. Four new chapters are included.
Takes an integrative approach by combining "old school" information with appropriate modeling to bring out the dominant effect of each kind of complexity in the properties of the medium including the artificial electromagnetic materials.
Includes end-of-chapter homework problem’s, a solutions manual, powerpoint slides, and quizzes
Strikes a balance between theoretical and practical aspects
Includes 100 new pages and new homework problems
Preface
Volume I : Electromagnetic Equations of Simple Media
Chapter 1 : One Dimensional Solutions and Applications Chapter 2 : Two Dimensional Problems and Waveguides Chapter 3 : Three Dimensional Solutions and Applications Chapter 4 : Spherical Waves and Applications Chapter 5 : Spherical Waves and Applications Chapter 6 : Miscellaneous Topics on Waves Chapter 7 : Electromagnetic Modeling of Complex Materials Chapter 8 : Artificial Electromagnetic Materials Chapter 9 : Waves in Isotropic Cold Plasma : Dispersive Medium Chapter 10 : Spatial Dispersion and Warm Plasma Chapter 11 : Waves in Anisotropic Media and Magnetoplasma Chapter 12 : Optical Waves in Anisotropic Crystals Chapter 13 : Electromagnetics of Moving Media
Volume II : Introduction and One Dimensional Problems
Chapter 14 : Two Dimensional Problems Chapter 15 : Advanced Topics on Finite Element Method Chapter 16 : Case Study for FEM : Ridged Waveguide, Transmission Line, and Scattering Problem Chapter 17 : Three Dimensional Finite Element Examples from Radiation and Scattering Chapter 18 : Finite-Difference Time-Domain Method Chapter 19 : FDTD Simulation of Electromagnetic Pulse Interaction with a Switched Plasma Slab Chapter 20 : Approximate Analytical Methods based on Perturbation and Variational Techniques Chapter 21 : Advanced Methods Based on Perturbation Techniques
