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Finite Element Methods for Maxwell's Equations Peter Monk
Publisher: Oxford University Press, USA

Employing a unified coherent approach that is unmatched in the field, the authors detail both integral and differential equations using the method of moments and finite-element procedures. In addition, readers will gain a thorough .. Programs after reading the first chapter of this book. Electromagnetic Simulation Using the FDTD Method describes the power and flexibility of the finite-difference time-domain method as a direct simulation of Maxwell's equations. An axisymmetric finite element method (FEM) model was employed to demonstrate important techniques used in the design of antennas for hepatic microwave ablation (MWA). Ii) Generation of equations for fields at each element. John Leonidas Volakis, Arindam Chatterjee & Leo C. Finite element method for electromagnetics : antennas, microwave circuits, and scattering applications. I) Discretisation of the solution region into elements. To effectively The first of these, the finite-difference time-domain ( FDTD) method, is based on the Yee algorithm [12] and uses finite difference approximations of the time and space derivatives of Maxwell's curl equations to create a discrete three-dimensional representation of the electric and magnetic fields. These equations are used to show that light is an electromagnetic wave. Iv) Solution of the resulting system. In electromagnetism, Maxwell's equations are a set of four partial differential equations that describe the properties of the electric and magnetic fields and relate them to their sources, charge density and current density.