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The Mathematical Theory of Time-Harmonic Maxwell's Equations: Expansion-, Integral-, and Variational Methods de Andreas Kirsch

The Mathematical Theory of Time-Harmonic Maxwell's Equations: Expansion-, Integral-, and Variational Methods: Applied Mathematical Sciences, cartea 190

Autor Andreas Kirsch, Frank Hettlich
en Limba Engleză Hardback – 2 dec 2014
This book gives a concise introduction to the basic techniques needed for the theoretical analysis of the Maxwell Equations, and filters in an elegant way the essential parts, e.g., concerning the various function spaces needed to rigorously investigate the boundary integral equations and variational equations. The book arose from lectures taught by the authors over many years and can  be helpful in designing graduate courses for mathematically orientated students on electromagnetic wave propagation problems. The students should have some knowledge on vector analysis (curves, surfaces, divergence theorem) and functional analysis (normed spaces, Hilbert spaces, linear and bounded operators, dual space). Written in an accessible manner, topics are first approached with simpler scale Helmholtz Equations before turning to Maxwell Equations. There are examples and exercises throughout the book. It will be useful for graduate students and researchers in applied mathematics and engineers working in the theoretical approach to electromagnetic wave propagation.
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Specificații

ISBN-13: 9783319110851
ISBN-10: 3319110853
Pagini: 337
Ilustrații: XIII, 337 p. 3 illus., 1 illus. in color.
Dimensiuni: 155 x 235 x 20 mm
Greutate: 7.14 kg
Ediția:2015
Editura: Springer International Publishing
Colecția Springer
Seria Applied Mathematical Sciences

Locul publicării:Cham, Switzerland

Public țintă

Graduate

Cuprins

Introduction.- Expansion into Wave Functions.- Scattering From a Perfect Conductor.- The Variational Approach to the Cavity Problem.- Boundary Integral Equation Methods for Lipschitz Domains.- Appendix.- References.- Index.

Recenzii

“This book is devoted to the study of the Maxwell equations in relationship with the basic techniques for a thorough mathematical analysis of these equations. … Numerous examples and exercises illustrate the abstract content of this book. The volume under review is useful to graduate students and researchers in applied mathematics and engineers working in the theoretical approach to electromagnetic wave propagation.” (Teodora-Liliana Rădulescu, zbMATH 1342.35004, 2016)

Notă biografică

Andreas Kirsch and Frank Hettlich are Professors of Mathematics at Karlsruher Institut für Technologie (KIT).

Textul de pe ultima copertă

This book gives a concise introduction to the basic techniques needed for the theoretical analysis of the Maxwell Equations, and filters in an elegant way the essential parts, e.g., concerning the various function spaces needed to rigorously investigate the boundary integral equations and variational equations. The book arose from lectures taught by the authors over many years and can be helpful in designing graduate courses for mathematically orientated students on electromagnetic wave propagation problems. The students should have some knowledge on vector analysis (curves, surfaces, divergence theorem) and functional analysis (normed spaces, Hilbert spaces, linear and bounded operators, dual space).
Written in an accessible manner, topics are first approached with simpler scale Helmholtz Equations before turning to Maxwell Equations. There are examples and exercises throughout the book. It will be useful for graduate students and researchers in applied mathematics and engineers working in the theoretical approach to electromagnetic wave propagation.

Caracteristici

Written by well known international researchers based on their lectures between 2007 and 2013 Accessible to broad audience with examples and exercises throughout Topics are first approached with simpler scalar Helmholtz equations before turning to Maxwell equations Appendix material includes results from functional analysis, vector calculus, and differential geometry