Numerical and Analytical Methods in Electromagnetics

Like all branches of physics and engineering, electromagnetics relies on mathematical methods for modeling, simulation, and design procedures in all of its aspects (radiation, propagation, scattering, imaging, etc.). Originally, rigorous analytical techniques were the only machinery available to pro...

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Bibliographic Details
Other Authors:	Anastassiu, Hristos (Editor)
Format:	Book Chapter
Published:	Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:	History of engineering & technology cubic-quartic Schrödinger equation cubic-quartic resonant Schrödinger equation parabolic law wave field transformation finite difference method Cole-Cole model Monte Carlo simulations percolation conductivity carbon nanotubes composite optical parametric amplification non-linear wave mixing micro-resonator optimization MRI system birdcage coil birdcage configurations coil capacitance analytical solution equivalent circuit modelling T-matrix theory 3D-EM simulation small volume RF coil method of auxiliary sources (MAS) electromagnetic scattering wedge numerical methods accuracy coil gun reluctance electromagnetic launcher mechatronics electronics mechanics simulation RoboCup magnetic field strength magnetic flux density magnetic potential current density power transmission line electromagnetic modelling integral formulation skin effect thin shell approach mutual inductance finite element method partial element equivalent circuit method magnetite nanoparticles Mie scattering theory near infrared laser photothermal therapy bioheat transfer diffusion approximation Arrhenius integral breast cancer air-core pulsed alternator electromagnetic rail launcher coupled analysis computational electromagnetics integral formulations n/a
Online Access:	Get Fullteks DOAB: description of the publication
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001	doab_20_500_12854_68503
005	20210501
020			\|a books978-3-0365-0065-2
020			\|a 9783036500645
020			\|a 9783036500652
024	7		\|a 10.3390/books978-3-0365-0065-2 \|c doi
041	0		\|a English
042			\|a dc
072		7	\|a TBX \|2 bicssc
100	1		\|a Anastassiu, Hristos \|4 edt
700	1		\|a Anastassiu, Hristos \|4 oth
245	1	0	\|a Numerical and Analytical Methods in Electromagnetics
260			\|a Basel, Switzerland \|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2021
300			\|a 1 electronic resource (196 p.)
506	0		\|a Open Access \|2 star \|f Unrestricted online access
520			\|a Like all branches of physics and engineering, electromagnetics relies on mathematical methods for modeling, simulation, and design procedures in all of its aspects (radiation, propagation, scattering, imaging, etc.). Originally, rigorous analytical techniques were the only machinery available to produce any useful results. In the 1960s and 1970s, emphasis was placed on asymptotic techniques, which produced approximations of the fields for very high frequencies when closed-form solutions were not feasible. Later, when computers demonstrated explosive progress, numerical techniques were utilized to develop approximate results of controllable accuracy for arbitrary geometries. In this Special Issue, the most recent advances in the aforementioned approaches are presented to illustrate the state-of-the-art mathematical techniques in electromagnetics.
540			\|a Creative Commons \|f https://creativecommons.org/licenses/by/4.0/ \|2 cc \|4 https://creativecommons.org/licenses/by/4.0/
546			\|a English
650		7	\|a History of engineering & technology \|2 bicssc
653			\|a cubic-quartic Schrödinger equation
653			\|a cubic-quartic resonant Schrödinger equation
653			\|a parabolic law
653			\|a wave field transformation
653			\|a finite difference method
653			\|a Cole-Cole model
653			\|a Monte Carlo simulations
653			\|a percolation
653			\|a conductivity
653			\|a carbon nanotubes composite
653			\|a optical parametric amplification
653			\|a non-linear wave mixing
653			\|a micro-resonator
653			\|a optimization
653			\|a MRI system
653			\|a birdcage coil
653			\|a birdcage configurations
653			\|a coil capacitance
653			\|a analytical solution
653			\|a equivalent circuit modelling
653			\|a T-matrix theory
653			\|a 3D-EM simulation
653			\|a small volume RF coil
653			\|a method of auxiliary sources (MAS)
653			\|a electromagnetic scattering
653			\|a wedge
653			\|a numerical methods
653			\|a accuracy
653			\|a coil gun
653			\|a reluctance
653			\|a electromagnetic launcher
653			\|a mechatronics
653			\|a electronics
653			\|a mechanics
653			\|a simulation
653			\|a RoboCup
653			\|a magnetic field strength
653			\|a magnetic flux density
653			\|a magnetic potential
653			\|a current density
653			\|a power transmission line
653			\|a electromagnetic modelling
653			\|a integral formulation
653			\|a skin effect
653			\|a thin shell approach
653			\|a mutual inductance
653			\|a finite element method
653			\|a partial element equivalent circuit method
653			\|a magnetite nanoparticles
653			\|a Mie scattering theory
653			\|a near infrared laser
653			\|a photothermal therapy
653			\|a bioheat transfer
653			\|a diffusion approximation
653			\|a Arrhenius integral
653			\|a breast cancer
653			\|a air-core pulsed alternator
653			\|a electromagnetic rail launcher
653			\|a coupled analysis
653			\|a computational electromagnetics
653			\|a integral formulations
653			\|a n/a
856	4	0	\|a www.oapen.org \|u https://mdpi.com/books/pdfview/book/3523 \|7 0 \|z Get Fullteks
856	4	0	\|a www.oapen.org \|u https://directory.doabooks.org/handle/20.500.12854/68503 \|7 0 \|z DOAB: description of the publication

Numerical and Analytical Methods in Electromagnetics

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