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This is the first comprehensive treatment of conformal antenna arrays from an engineering perspective. While providing a thorough foundation in theory, the authors of this publication provide a wealth of hands-on instruction for practical analysis and design of conformal antenna arrays.
Offers a comprehensive account of electromagnetic theory and analytical methods for solving waveguide and cavity problems. This edition is packed with examples and applications. It provides solutions to a large number of practical structures. It also includes a complete discussion of scalar and Dyadic Green functions.
Electrical Engineering/Electromagnetics "Methods in Electromagnetic Wave Propogation," 2e A volume in the IEEE/OUP Series on Electromagnetic Wave Theory Donald D. Dudley, Series Editor "The quality of the material and the clarity of exposition make this an important reference book for research workers and lecturers." — "Nature" Modern methods of tackling problems associated with electromagnetic waves involve a judicious mixture of analysis and computation. The analysis occurs in the mathematical formulation and in establishing that it has the requisite properties. Conversion to a form suitable for the computer entails numerical analysis, whose justification may also rest on a considerable body of analysis. Therefore, the aim of this volume is to develop a suitable framework of theory and numerical analysis with applications to various aspects of the propagation of electromagnetic waves. The explanation is couched in as comprehensible a language as possible and it assumes a starting-point as early as is commensurate with the size of the text. Numerous exercises have been inserted at convenient points and some of these are open-ended so that any instructor has plenty of freedom in determining the mode of treatment. This new edition considers the analytical progress which has been made recently, and the wider availability of powerful computers. The conjugate gradient method and CGFFT are given extensive treatment. The coverage of finite methods has been expanded and conforming finite elements particularly appropriate to electromagnetic applications are described. The discussion of integral equations has been completely revised and new topics have been added, including Sobolev spaces, vector optimization, absorbing boundary conditions, and surface radiation conditions. Also in the series... "Mathematical Foundations for Electromagnetic Theory," Donald D. Dudley, University of Arizona, Tucson, 1994, Hardcover, 256 pp "Methods
"An IEEE reprinting of this classic 1968 edition, FIELD COMPUTATION BY MOMENT METHODS is the first book to explore the computation of electromagnetic fields by the most popular method for the numerical solution to electromagnetic field problems. It presents a unified approach to moment methods by employing the concepts of linear spaces and functional analysis. Written especially for those who have a minimal amount of experience in electromagnetic theory, this book illustrates theoretical and mathematical concepts to prepare all readers with the skills they need to apply the method of moments to new, engineering-related problems. Written especially for those who have a minimal amount of experience in electromagnetic theory, theoretical and mathematical concepts are illustrated by examples that prepare all readers with the skills they need to apply the method of moments to new, engineering-related problems."
Electromagnetics History, Theory, and Applications A useful reference for engineers and physicists, the IEEE reprinting of this classic text provides a deep, fundamental understanding of electromagnetics. Each chapter begins with a pertinent historical overview that shows how special relativity can be used to develop a complete electromagnetic theory from Coulomb's Law, with the needed relativity theory developed in an early chapter. Electromagnetics also contains many applications in the chapters covering electrostatics, magnetostatics, and electrodynamics, while the final three chapters of the book extend the electromagnetic theory to dielectric, magnetic, and conducting materials. Key features include: The development and use of special relativity to establish a complete electromagnetic theory based on Coulomb's Law as the sole experimental postulate Historical introductions to each chapter Extensive treatment of electrical properties of materials in the final three chapters Also in the series Field Computation by Moment Methods by Roger F. Harrington, Syracuse University An IEEE reprinting of this classic 1968 edition, Field Computation by Moment Methods is the first book to explore the computation of electromagnetic fields by the method of moments--the most popular method to date for the numerical solution of electromagnetic field problems. It presents a unified approach to moment methods by employing the concepts of linear spaces and functional analysis. Written especially for those who have a minimal amount of experience in electromagnetic theory, theoretical and mathematical concepts are illustrated by examples that prepare readers with the skills they need to apply the method of moments to new, engineering-related problems. Key topics include: Electrostatic fields Two-dimensional electromagnetic fields Wire antennas and scatterers Multiport systems Transmission lines and waveguides Resonators Antenna systems 1993 Hardcover 240 pp IEEE Order No. PC0363-2 ISBN 0-7803-1014-4 About the Series The IEEE Press Series on Electromagnetic Waves consists of new titles as well as reprints and revisions of recognized classics that maintain long-term archival significance in electromagnetic waves and applications. Designed specifically for graduate students, practicing engineers, and researchers, this series provides affordable volumes that explore electromagnetic waves and applications beyond the undergraduate level.
Electrical Engineering/Electromagnetics The Plane Wave Spectrum Representation of Electromagnetic Fields A classic reissue in the IEEE/OUP Series on Electromagnetic Wave Theory Donald G. Dudley, Series Editor "I am pleased to see that the IEEE Press and OUP have secured the rights to republish this excellent monograph ... a long-cherished exposition on the angular spectrum concept." --James R. Wait The purpose of this book is to explain how general electromagnetic fields can be represented by the superposition of plane waves traveling in diverse directions, and to illustrate the way in which this plane wave spectrum representation can be put to good use in treating various characteristic problems belonging to the classical theories of radiation, diffraction and propagation. The book offers a largely unified theory of a range of problems, solutions to all of which are obtained in forms at least patently capable of yielding numerical results by straightforward means. The reader is assumed to be competent at integration in the complex plane, but otherwise the discussion is virtually self-contained. The aim is to furnish the student of electromagnetic theory with a useful technical tool and a comparatively compact account of some interesting aspects of his discipline. The contents are presented in two parts. The first, under the heading of Theory, covers Preliminaries, Plane wave representations; and Supplementary theory. The second, with the heading Application, deals with Diffraction by a plane screen; Propagation over a uniform plane surface; Propagation over a two-part plane surface; The field of a moving point charge; and Sources of anisotropic media. Also in the series... Field Computation by Moment Method An IEEE/OUP classic reissue R. F. Harrington, Syracuse University 1995, Hardcover, 240 pp. Waves and Fields in Inhomogeneous Media An IEEE/OUP classic reissue Weng Cho Chew, University of Illinois at Urbana-Champaign 1995, Hardcover, 632 pp. Methods in Electromagnetic Wave Propagation Second Edition D.S. Jones, University of Dundee 1994, Hardcover, 686 pp. About the series Formerly the IEEE Press Series on Electromagnetic Waves, this new joint series between IEEE Press and Oxford University Press offers even better coverage of the field with new titles as well as reprintings and revisions of recognized classics that maintain long-term archival significance in electromagnetic waves and applications. Designed specifically for graduate students, practicing engineers, and researchers, this series provides affordable volumes that explore electromagnetic waves and applications beyond the undergraduate level.
This book is an electromagnetics classic. Originally published in 1941, it has been used by many generations of students, teachers, and researchers ever since. Since it is classic electromagnetics, every chapter continues to be referenced to this day. This classic reissue contains the entire, original edition first published in 1941.
Presents a combination of solutions to Maxwell's equations with conservation of energy to solve for the statistics of many quantities of interest: penetration into cavities (and shielding effectiveness), field strengths far from and close to cavity walls, and power received by antennas within cavities.
The first comprehensive monograph to present state of the art utilization of multigrid methods for enhancing the modelling versatility, numerical robustness and computational efficiency of one of the most popular classes of numerical EM field modeling methods --- the method of finite elements.
Unmatched in its coverage of the topic, the first edition of GENERALIZED VECTOR AND DYADIC ANALYSIS helped revolutionize the treatment of boundary-value problems, establishing itself as a classic in the field. This expanded, revised edition is the most comprehensive book available on vector analysis founded upon the new method symbolic vector. GENERALIZED VECTOR AND DYADIC ANALYSIS presents a copious list of vector and dyadic identities, along with various forms of Green's theorems with derivations. In addition, this edition presents an historical study of the past mis-understandings and contradictions that have occurred in vector analysis presentations, furthering the reader's understanding of the subject. Sponsored by: IEEE Antennas and Propagation Society.
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