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Compendium on Electromagnetic Analysis cover
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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.