The five-volume set may serve as a comprehensive reference on electromagnetic analysis and its applications at all frequencies, from static fields to optics and photonics. The material includes micro- and nanomagnetics, the new generation of electric machines, renewable energy, hybrid vehicles, low-noise motors; antennas and microwave devices, plasmonics, metamaterials, lasers, and more.
Written at a level accessible to both graduate students and engineers, Electromagnetic Analysis is a comprehensive reference, covering methods and applications at all frequencies (from statics to optical). Each volume contains pedagogical/tutorial material of high archival value as well as chapters on state-of-the-art developments.
Sample Chapter(s)
Foreword
Preface from the Editor-in-Chief
Preface to Volume 1
Chapter 1: Electrostatic Interactions Between Colloidal Particles
Contents:
- Volume 1: Electrostatic and Magnetic Phenomena:
- Electrostatic Interactions Between Colloidal Particles (Vladimir Lobaskin)
- Probing Materials With Electromagnetic Waves: From Bulk Materials to Microstructures (N R Anderson, R E Camley, and K L Livesey)
- Electromagnetics for Quantitative Magnetic Resonance Imaging (Stephen E Russek, Karl F Stupic, Joshua R Biller, Michael A Boss, Kathryn E Keenan, and Elizabeth Mirowski)
- Notch-Induced Domain Wall Pinning in Ferromagnetic Nanowires (G Carbou)
- Modeling of Nanostructured Magnetic Field Sensors (Alessandra Manzin)
- Spin-Transfer Torque-Driven Magnetization Dynamics in Magnetic Random Access Memory (Peong-Hwa Jang, Seung-Jae Lee, Seo-Won Lee, and Kyung-Jin Lee)
- Electromagnetic Waves in Canted Magnets (R Macêdo and Robert L Stamps)
- Magnetic Normal Modes of Nanopatterned Magnets Investigated by Both Wavevector- and Space-Resolved Brillouin Light Scattering Spectroscopy (Gianluca Gubbiotti, Marco Madami, Federico Montoncello, Yue Li, and Robert L Stamps)
- Standard Problems in Micromagnetics (Donald Porter and Michael Donahue)
- Hard Magnets (Josef Fidler)
- Volume 2: The New Generation of Electric Machines:
- Electric Machine Fundamentals (David A Torrey)
- Topology Optimization of Electric Motors (Hajime Igarashi)
- Multiscale Finite Element Method for Laminated Domains in Electrical Engineering (Karl Hollaus and Markus Schöbinger)
- Core Loss in Electric Machines (Burak Tekgun, Yilmaz Sozer, and Igor Tsukerman)
- Electric Machines for Automotive Applications (Iqbal Husain, Md Ashfanoor Kabir, and Md Sariful Islam)
- Switched Reluctance Machines for Automotive Application (Akira Chiba and Kyohei Kiyota)
- Axial Flux Machines (Tausif Husain and Yilmaz Sozer)
- Superconducting Machines (Kiruba Sivasubramaniam Haran and Thanatheepan Balachandran)
- Magnetic Gears and Magnetically Geared Machines: An Alternative Compact and Reliable Solution for High-Torque, Low-Speed Systems (Hamid A Toliyat, Matthew Johnson, and Matthew C Gardner)
- Volume 3: Antennas, Antenna Arrays and Microwave Devices:
- Finite-Element Solution of Time-Harmonic Maxwell's Equations from Zero to Microwave Frequencies (Zsolt Badics and József Pávó)
- The Partial Element Equivalent Circuit Method for High-Frequency Problems (Riccardo Torchio, Dimitri Voltolina, Piergiorgio Alotto, Paolo Bettini and Federico Moro)
- Metamaterials, Metasurfaces and Applications (Filippo Costa and Michele Borgese)
- Metamaterial-Engineered Compact Antennas and High-Density Arrays (Ming-Chun Tang, Yang Wang, Ting Shi, Zhiyuan Chen, Zhen-Tian Wu, Xiao-Ming Chen and Mei Li)
- Radiative Wireless Energy Transfer: Rectifying Antennas (Hubregt J Visser)
- Loop Antennas for Near-Field Communication (Michael Gebhart and Thomas Bauernfeind)
- Backscatter RFID Systems (Jasmin Grosinger, Lukas Zöscher, Lukas Görtschacher and Wolfgang Bösch)
- Topology Optimization of Antennas (Hajime Igarashi)
- Material-independent Modes for the Design of Electromagnetic Scattering (Carlo Forestiere, Giovanni Miano, Mariano Pascale and Roberto Tricarico)
- Full-Wave Pseudoanalytical Methods for Cylindrically Symmetric Electromagnetic Structures: Applications in Sensing and Telemetry for Geophysical Exploration (Guilherme S Rosa, José R Bergmann and Fernando L Teixeira)
- Volume 4: Optics and Photonics I:
- Maxwell's Equations, Constitutive Relations and Classification of Electromagnetic Media (André Nicolet)
- Green's Functions and Radiation in Classical Electrodynamics (Alexei A Maradudin)
- Electrodynamics of Layered Media (Alexander M Merzlikin and Alexei P Vinogradov)
- Electromagnetic Waves in Photonic Crystals: Laws of Dispersion, Causality and Analytical Properties (Boris Gralak, Maxence Cassier, Guillaume Demésy and Sébastien Guenneau)
- Topological Properties of Photonic Crystals (Wen-Jie Chen, Ruo-Yang Zhang, Ming-Li Chang, Meng Xiao and Che Ting Chan)
- Interaction of Light with Gain Media (Eugeny S Andrianov, Eugeny D Chubchev, Alexander V Dorofeenko, Igor A Nechepurenko, Alexander A Pukhov and Alexander A Zyablovsky)
- Radiative Transport of Electromagnetic Waves in Random Media (John C Schotland)
- Volume 5: Optics and Photonics II:
- Raman Scattering (Vladimir P Drachev)
- Fiber Lasers with Distributed Feedback (Sergey A Babin, Evgeniy V Podivilov and David A Shapiro)
- Localized Surface Plasmons in Nanoparticles (Marc R Bourgeois and George C Schatz)
- Surface Plasmon Polaritons (Brian Stout)
- SPASER: A Plasmon Nanolaser (Andrey K Sarychev)
- Two-dimensional and One-dimensional Periodic Structures for Sensing, Spectroscopy, Light Emission and Two-dimensional Materials (Philip A Thomas and Alexander N Grigorenko)
- Toroidal Multipoles in Metamaterials (Anna C Tasolamprou, Odysseas Tsilipakos, Alexey Basharin, Maria Kafesaki, Costas M Soukoulis and Eleftherios N Economou)
- Optical Beams: Vortices with Fractional Orbital Angular Momentum (Victor V Kotlyar, Alexey A Kovalev and Victor A Soifer)
- Optical Beams: Polarization Conversion of Focused Vortex Beams (Svetlana N Khonina, Victor A Soifer, Andrey V Ustinov and Alexey P Porfirev)
Readership: Graduate students and engineers studying or working in the fields requiring electromagnetic analysis; ranging from static fields to optics and photonics.
"This set is for graduate students in physics and engineering or photonics who want to learn about some of the latest topics in electromagnetics. Although much of the material is very theoretical, it is written in a very accessible manner that clearly explains very in-depth technical details that may not be easily understood in a typical classroom book on electromagnetics."
IEEE Electrical Insulation Magazine
About the Editor
Igor Tsukerman is Professor of Electrical and Computer Engineering at the University of Akron, Ohio, where he has been a faculty member since 1995. His research is focused on the simulation of nanoscale systems, applied electromagnetics and photonics, plasmonics, computational methods, and homogenization of materials. He teaches a variety of undergraduate and graduate courses (Basic Electrical Engineering, Signals & Systems, Circuits, Electromagnetic Fields, Digital Signal Processing, Random Signal Analysis, Simulation of Nanoscale Systems, and others). Tsukerman has approximately 200 refereed publications, has authored a monograph (Computational Methods for Nanoscale Applications: Particles, Plasmons and Waves, Springer 2008) and co-edited a book (Plasmonics and Plasmonic Metamaterials: Analysis and Applications, World Scientific, 2011).
Before joining the University of Akron, Tsukerman worked at the Department of Electrical & Computer Engineering, the University of Toronto (1990–1995). A joint project with GE Canada involved electromagnetic field analysis and noise reduction in large electric motors.
Tsukerman's academic degrees are from St. Petersburg Polytechnic in Russia: a combined BSc / MSc degree (with honors) in Control Systems (1982) and a PhD in Electrical Engineering (1988).