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040			_cCentro de Información y Bibliotecas
082			_a621.382240285.MAKA.00
100			_aMakarov, Sergey N. _eAutor
245		0	_aLow-Frequency Electromagnetic Modeling For Electrical And Biological Systems Using Matlab
250			_a1A. ed
260			_aESTADOS UNIDOS
260			_bWILEY
260			_c2015
300			_a616 PP
300			_c24.0 cm
505			_aAcknowledgments . -- About The Companion Website . -- Part I Low-Frequency Electromagnetics.Computational Meshes.Computational . -- Phantoms . -- Classification Of Low-Frequency Electromagnetic Problems. Poisson And Laplace Equations In . -- Integral Form . -- Introduction . -- Classification Of Low-Frequency Electromagnetic Problems . -- Poisson And Laplace Equations Boundary Conditions And Integral Equations . -- References . -- Triangular Surface Mesh Generation And Mesh Operations . -- Introduction . -- Triangular Mesh And Its Quality . -- Delaunay Triangulation. 3D Volume And Surface Meshes . -- Mesh Operations And Transformations . -- Adaptive Mesh Refinement And Mesh Decimation . -- Summary Of Matlab® Scripts . -- References . -- Triangular Surface Human Body Meshes For Computational Purposes . -- Introduction . -- Review Of Available Computational Human Body Phantoms And Datasets . -- Triangular Human Body Shell Meshes Included With The Text . -- Vhp-F Whole-Body Model Included With The Text . -- References . -- Part Ii Electrostatics Of Conductors And Dielectrics. Direct Current Flow . -- Electrostatics Of Conductors. Fundamentals Of The Method Of Moments. Adaptive Mesh . -- Refinement . -- Introduction . -- Electrostatics Of Conductors. Mom (Surface Charge Formulation) . -- Gaussian Quadratures. Potential Integrals. Adaptive Mesh Refinement . -- Summary Of Matlab Modules References Theory And Computation Of Capacitance. Conducting Objects In External Electric Field Introduction Capacitance Definitions: Self-Capacitance Capacitance Of Two Conducting Objects Systems Of Three Conducting Objects Isolated Conducting Object In An External Electric Field Summary Of Matlab® Modules References Electrostatics Of Dielectrics And Conductors Introduction Dielectric Object In An External Electric Field Combined Metal–Dielectric Structures Application Example: Modeling Charges In Capacitive Touchscreens Summary Of Matlab Modules References Transmission Lines: Two-Dimensional Version Of The Method Of Moments Introduction Transmission Lines: Value Of The Electrostatic Model—Analytical Solutions The 2D Version Of The Mom For Transmission Lines Summary Of Matlab Modules References Steady-State Current Flow Introduction Boundary Conditions. Integral Equation. Voltage And Current Electrodes Analytical Solutions For Dc Flow In Volumetric Conducting Objects Mom Algorithm For Dc Flow. Construction Of Electrode Mesh Application Example: Eit Application Example: Tdcs Summary Of Matlab Modules References Part Iii Linear Magnetostatics Linear Magnetostatics: Surface Charge Method Introduction Integral Equation Of Magnetostatics: Surface Charge Method Analytical Versus Numerical Solutions: Modeling Magnetic Shielding Summary Of Matlab Modules References Inductance. Coupled Inductors. Modeling Of a Magnetic Yoke Introduction Inductance Mutual Inductance And Systems Of Coupled Inductors Modeling Of a Magnetic Yoke Summary Of Matlab Modules . -- References Part Iv Theory And Applications Of Eddy Currents Fundamentals Of Eddy Currents Introduction Three Types Of Eddy Current Approximations Exact Solution For Eddy Currents Without Surface Charges Created By Horizontal Loops Of Current Exact Solution For a Sphere In An External Ac Magnetic Field a Simple Approximate Solution For Eddy Currents In a Weakly Conducting Medium Summary Of Matlab Modules References Computation Of Eddy Currents Via The Surface Charge Method Introduction Numerical Solution In a Weakly Conducting Medium With External Magnetic Field Comparison With Fem Solutions From Maxwell 3D Of Ansys: Solution Convergence Eddy Currents Excited By a Coil Summary Of Matlab Modules References Part V Nonlinear Electrostatics Electrostatic Model Of a Pn-Junction: Governing Equations And Boundary Conditions Introduction Built-In Voltage Of a Pn-Junction Complete Electrostatic Model Of a Pn-Junction References Numerical Simulation Of Pn-Junction And Related Problems: Gummel’S Iterative Solution Introduction Iterative Solution For Zero Bias Voltage Numerical Solution For The Electric Field Region Analytical Solution For The Diffusion Region: Shockley Equation Summary Of Matlab Modules References Index
650			_aELECTROMAGNETISMO
700			_aNoetscher, Gregory M.
700			_aNazarian, Ara
942			_cTM001 _2ddc