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Electromagnetics, RF & Microwaves Forthcoming

Computational Electromagnetics

Electromagnetics of Time Varying Complex Media

Domain Decomposition Methods and Practical Applications

Frequency and Polarization Transformer, Second Edition

Jin-Fa Lee

Dikshitulu K. Kalluri

The Ohio State University, Columbus, USA

University of Massachusetts, Lowell, USA

Zhen Peng

This second edition of a bestseller covers time-varying anisotropic media, frequency and polarization transformer based on a switched magnetoplasma medium in a cavity, and FDTD numerical simulation for timevarying complex medium. Providing a primer on the theory of using magnetoplasmas for the coherent generation of tunable radiation, early chapters use a mathematical model with one kind of complexity— eliminating the need for high-level mathematics. Using plasma as the basic medium to illustrate the transformation of an electromagnetic wave by a complex medium, the text highlights the effects of each kind of complexity in the medium properties.

This book deals with the applied aspects of domain decomposition methods for computational electromagnetics. It provides a valuable bridge between rigorous mathematical treatments and practical software implementation of domain decomposition methods, including the finite domain decomposition method, domain decomposition for integral equation methods, and the multisolver domain decomposition method. The book shows how these methods can help solve multiscale time harmonic electromagnetic problems in areas such as large finite antenna arrays, metamaterials, antenna systems conformally mounted on large platforms, complex integrated circuits and packaging, and more. • Presents in-depth mathematical analysis and practical engineering applications • Covers nonconformal domain decomposition with finite element tearing and interconnect (FETI) to solve large finite antenna arrays, metamaterials, and photonic crystals • Discusses nonconformal integral equation domain decomposition methods to solve electrically large radar targets without compromising accuracy • Uses nonconformal FEM-DDM to solve signal integrity problems in real-life ICs and packaging • Examines multi-solve domain decomposition methods for solving EMC/EMI of multiple antenna systems on large composite platforms Catalog no. K14783, August 2013, c. 664 pp. ISBN: 978-1-4665-1049-4, $149.95 / £95.00 Also available as an eBook

Catalog no. K10882, April 2010, 556 pp. ISBN: 978-1-4398-1706-3, $167.95 / £107.00 Also available as an eBook

Computational Methods for Electromagnetic and Optical Systems Second Edition John M. Jarem University of Alabama, Huntsville, USA

Partha P. Banerjee

University of Dayton, Ohio, USA

Praise for the First Edition "... a small but formidable book which rigorously sets out the basic theory, provides useful illustrative problems and directs the reader to relevant further reading from the excellent reference lists. ... It is the type of wide-ranging reference book that will find its way onto many bookshelves and, over the years, will become well-worn from frequent use." —, 2001

This text examines a variety of spectral computational techniques—including k-space theory, Floquet theory, and beam propagation—used to analyze electromagnetic and optical problems. A solutions manual is available upon qualifying course adoption.

Catalog no. K10235, April 2011, 432 pp. ISBN: 978-1-4398-0422-3, $125.95 / £79.99 Also available as an eBook

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Optics, Lasers, and Photonics  
Optics, Lasers, and Photonics  

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