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Numerical and Analytical Methods in Electromagnetics
Numerical and Analytical Methods in Electromagnetics
English[eng]
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
English[eng]
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