
Effective medium theory dates back to the early days of the theory of electricity. Faraday 1837 proposed one of the earliest models for a composite metal-insulator dielectric, and around 1870 Maxwell and later Garnett (1904) developed models to describe a composite or mixed material medium. The subject has been developed considerably since and while the results are useful for predicting materials performance, the theory can also be used in a wide range of problems in physics and materials engineering. This book develops the topic of effective medium theory by bringing together the essentials of both the static and the dynamical theory. Electromagnetic systems are thoroughly dealt with, as well as related areas such as the CPA theory of alloys, liquids, the density functional theory etc, with applications to ultrasonics, hydrodynamics, superconductors, porous media and others, where the unifying aspects of the effective medium concept are emphasized. In this new second edition two further chapters have been added to deal with the theory of electrolytes and the exciting frontiers in electromagnetic and related areas of cloaking research all from the perspective of effective medium theory. In addition, a new appendix with notes on the example problems makes this an ideal graduate level text book and research reference source.
This book investigates the principles and applications of effective medium theory, providing a unified framework for predicting the behavior of composite materials across various physical systems. Tuck C. Choy, an expert in the field, synthesizes historical developments from Faraday and Maxwell with modern advancements in dynamical theory. The text serves as a comprehensive resource for graduate students and researchers, bridging the gap between static models and complex contemporary applications.
What You Will Find
Scope Limits
Experts recognize this volume as a foundational reference for researchers working in materials engineering and condensed matter physics. Readers frequently note the academic density of the prose, which is tailored specifically for advanced graduate study and professional research applications.
Page Count:
240
Publication Date:
2015-01-01
Publisher:
OUP Oxford
ISBN-10:
0191015180
ISBN-13:
9780191015182
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