Best Reference Books – Analytical and Computational Techniques in Electromagnetics

We have compiled the list of Top 10 Best Reference Books on Analytical and Computational Techniques In Electromagnetics subject. These books are used by students of top universities, institutes and colleges. Here is the full list of top 10 best books on Analytical and Computational Techniques In Electromagnetics along with reviews.

Kindly note that we have put a lot of effort into researching the best books on Analytical and Computational Techniques In Electromagnetics subject and came out with a recommended list of top 10 best books. The table below contains the Name of these best books, their authors, publishers and an unbiased review of books on "Analytical and Computational Techniques In Electromagnetics" as well as links to the Amazon website to directly purchase these books. As an Amazon Associate, we earn from qualifying purchases, but this does not impact our reviews, comparisons, and listing of these top books; the table serves as a ready reckoner list of these best books.

1. “Inverse Problems in Electric Circuits and Electromagnetics” by N V Korovkin and V L Chechurin

“Inverse Problems in Electric Circuits and Electromagnetics” Book Review: This book provides new methods and solutions of inverse problems used in electromagnetics, electrophysics, electronics and electrical engineering. The approaches mentioned in the book show different ways of making some devices which ensures best electromagnetic performance, minimal weight, and thermal emissions. These approaches are further applied for modernization of existing devices to improve their technical features and extend their life. Some important inverse problems like synthesis, fault detection, diagnostics and identification are very important in electromagnetics. The book provides insight of all these because of the practical application to electric circuits and electromagnetics. The book provides recent achievements in maths and computing and focuses on an approach to these inverse problems for numeric solutions. The book includes in details about the properties of inverse problems and solutions as well as practical implementation of these methods in electric circuits and electromagnetics. The approaches and methods of solutions of inverse problems are supplied by different examples, like educational as well as solid examples for engineering problems important for practice. The book is helpful for the electronics, electrical engineering, electrophysics students and other specialists in this field.

2. “Analytical and Computational Methods in Electromagnetics (Artech House Electromagnetic Analysis)” by Ramesh Garg

“Analytical and Computational Methods in Electromagnetics (Artech House Electromagnetic Analysis)” Book Review: This book helps in optimising microwave system performance. This book offers a complete and clear explanation of electromagnetics knowledge. It also provides analytical fundamentals to understand the important methods in this field including MoM, FDTD techniques and green functions. The book has maths to master the material and has solved problems to ensure understanding of key concepts. The book has MCQ’s for self study which clarifies concepts without any mathematical burden. The book provides CD Rom, 1300 time saving equations and registered source code to solve similar problems in this field.

3. “Analytical, Approximate-Analytical and Numerical Methods in the Design of Energy Analyzers” by victor

“Analytical,Approximate-Analytical and Numerical Methods in the Design of Energy Analyzers” Book Review: This book features extended articles on the physics of electron devices like semiconductor devices, particle optics, microlithography, image science, and digital image processing, electromagnetic wave propagation, electron microscopy, and the computing methods. The book has contributions of leading authorities regarding this subject matter. It also contains information about the latest developments in imaging and electron physics. These topics provide practitioners interested in microscopy, optics, image processing, mathematical morphology, electron and ion emission with a valuable resource and concepts.

4. “Analytical Techniques in Electromagnetics” by Matthew N O Sadiku and Sudarshan R Nelatury

“Analytical Techniques in Electromagnetics” Book Review: This book is written for the scientists, engineers and researchers for seeking analytical solutions to electromagnetic problems. The techniques in the book offer better insight into actual physical processes, and can be utilised in finding precise quantities of interest. The book provides separation of variables technique in Laplace, heat, and wave equations, covering rectangular, cylindrical, and spherical coordinate systems. The book involves conformal transformation technique, its mapping, Schwarz–Christoffel transformation, series expansion method and solutions of Poisson’s equation. The book contains worked out problems to demonstrate applications of Fourier sine and cosine, Hankel and Mellin transform techniques. It also has perturbation techniques which degenerates to their unperturbed versions. This book has techniques to solve electromagnetic problems without overemphasizing the importance of analytical methods at the expense of numerical techniques.

5. “Resonance Effects of Excitons and Electrons: Basics and Applications” by Ion Geru and Dieter Suter

“Resonance Effects of Excitons and Electrons: Basics and Applications” Book Review: This book features resonance effects on excitons, biexcitons and the local electronic centers (LEC) in solids such as paramagnetic and paraelectric resonances, exciton acoustic resonance, radio-optical double resonance, hole-nuclear double resonance and ENDOR and acoustic ENDOR. This book explains criterias for coherent photons, phonons and magnons by excitons. Description of excitons and biexcitons with paramagnetic centers and nuclear spins, indirect interaction between the PC, quasienergy spectrum of excitons are presented in this text. The giant magneto-optical effects in semi-magnetic semiconductors are theoretically discussed. The proof for the interaction between paramagnetic centers and excitons increases the spin relaxation rate. Recently, a new perspective has been added in this book that is storing and processing information in quantum bits and building blocks of quantum computers. This is properly explained and examples of demonstration type quantum computers are elaborated.

6. “Electromagnetics for Electrical Machines” by Saurabh Kumar Mukerji and Ahmad Shahid Khan

“Electromagnetics for Electrical Machines” Book Review: This book will act as a guide for postgraduate-level students of electrical engineering, as well as of physics and electronics and communication engineering. The book offers lineal theory of electromagnetics and its application to the design of electrical machines. It highlights the electromagnetic field (EMF) theory and its correlation with electrical machines. It also contains topics like Maxwell equations, scalar and vector potentials, special cases leading to laplace, Poisson, eddy current and wave equations. It describes Poynting, Helmholtz, approximation theorems, Schwarz–Christoffel transformation, air gap permeance. The book provides examples related to slot leakage, transformer leakage inductance, and theory of hysteresis machines. The text features EMFs in laminated-rotor induction machines, three-dimensional field analyses for three-phase solid rotor induction machines. This book provides information to the students to enhance subject knowledge.

7. “Multiresolution Frequency Domain Technique for Electromagnetics” by Ercument Arvas and Mesut Gokten

“Multiresolution Frequency Domain Technique for Electromagnetics” Book Review: This book has general frequency domain numerical methods similar to the finite difference frequency domain (FDFD) technique. Multiresolution frequency domain (MRFD) technique, orthogonal Battle-Lemarie and biorthogonal techniques and Cohen-Daubechies-Feauveau (CDF) wavelets is highlighted in detail. This will help in achieving a frequency domain scheme to improve computational efficiency figures, reduced memory and stimulation time requirements. The new technique MRFD helps in many electromagnetic problems, three dimensional resonators, general guided wave structures and electromagnetic scattering from two dimensional dielectric objects. This new technique presented by the book provides substantial savings in terms of execution time and memory requirements compared to the traditional FDFD method.

8. “Electromagnetic Scattering Using the Iterative Multiregion Technique” by Mohamed H Al Sharkawy and Veysel Demir

“Electromagnetic Scattering Using the Iterative Multi Region Technique” Book Review: The book has an iterative approach using the finite difference frequency domain method to solve the problem of scattering from large-scale electromagnetic structures. The idea of this approach is to divide one computational domain into smaller subregions and solve each subregion separately.This helps in reduction in the computation time and memory. This total process is termed as iterative multiregion (IMR) technique. The book covers different enhancement procedures like hybrid technique with IMR technique and a method of moment technique producing accurate results with memory saving. It contains the multigrid technique and incomplete lower and upper preconditioner which also reduces computational time. The book highlighting the iterative techniques along with enhancement procedures helps the students to solve large open-boundary electromagnetic problems. These techniques help to solve unconnected objects in a very much efficient way and proper way.

9. “Computational Electromagnetics—Retrospective and Outlook” by Iftikhar Ahmed and Zhizhang David Chen

“Computational Electromagnetics—Retrospective and Outlook” Book Review: The book covers the past, present and future developments of field theory and computational electromagnetics. The book presents an overview of the historical developments and the state-of-the-art in computational electromagnetics in the first two chapters. These chapters focus on recent progress, new developments, challenges, trends and major directions in computational electromagnetics. Emphasis is given on modeling of larger structures with multi-scale dimensions and multi-level descriptions and transient behaviours. The book includes physical effects, quantum, thermal and mechanical effects and nano scale features. New developments in available computer hardware, MPI, Open MP, CUDA and OpenCL are also presented in this book. The book is designed for students, research scientists, professors, design engineers and consultants. These will help them in researching computational electromagnetics, RF/microwave, optimization, new numerical methods, as well as accelerator simulator, dispersive materials, nano-antennas, nano-waveguide, nano-electronics, terahertz applications, biomedical sciences. This book can be used for those who are engaged in commercializing electromagnetic, sensors and the semiconductor industry. It can also be used as a reference book for graduate students.

10. “Numerical Techniques in Electromagnetics with MATLAB” by Matthew N O Sadiku

“Numerical Techniques in Electromagnetics with MATLAB” Book Review: This book is a suitable text in the continuing increase in awareness and use of numerical techniques and incorporates advances and refinements made in recent years. This bestselling book became the reference of choice for thousands of engineers, researchers and students. Most important part of the book is the improvement made to the standard algorithm for the finite-difference time-domain(FDTD) method and treatment of absorbing boundary conditions in FDTD, finite element, and transmission-line-matrix methods. The book helps the readers to numerically analyse and solve EM problems to expand their problem-solving skills. It prepares them for research in electromagnetism as well. Further, the book gives a comprehensive resource that contains the most useful computation methods for EM problems and includes MATLAB code instead of FORTRAN.

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