
This monograph deals with the theoretical aspects of the circuit modelling of high-frequency electromagnetic structures using the Lorentz reciprocity theorem. This is the first book to cover the generalization from closed structures to open-boundary waveguides and circuit structures. The author has developed a new way to represent a general waveguide by transmission lines: and was awarded the Microwave Prize of the IEEE for this work. The first part of the book discusses the construction of transmission line models for waveguide structures. Then the incidence of external electromagnetic waves on high-frequency structures is studied, and finally the concepts derived in the earlier parts of the book are generalized to reciprocal and non-reciprocal anisotropic, bi-isotropic, and bianisotropic materials.
This book investigates the theoretical framework for circuit modeling of high-frequency electromagnetic structures through the application of the Lorentz reciprocity theorem. F. Olyslager, a recognized expert in the field and recipient of the IEEE Microwave Prize, presents a methodology for generalizing transmission line models from closed structures to open-boundary waveguides. The text synthesizes advanced mathematical techniques to provide a unified approach for analyzing complex electromagnetic systems.
What You Will Find
Scope Limits
Experts and academics recognize this work as a significant contribution to the field of microwave engineering due to its novel approach to waveguide representation. Readers frequently note the high level of mathematical density and the rigorous theoretical nature of the prose, making it a specialized resource for researchers and advanced graduate students.
Page Count:
238
Publication Date:
1999-01-01
Publisher:
OUP Oxford
ISBN-10:
0191591270
ISBN-13:
9780191591273
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