[PDF] Geometrical Theory of Diffraction for Electromagnetic Waves by Graeme L. James | Perlego
Get access to over 600,000 titles
Start your free trial today and explore our endless library.
Start free trial
Join perlego now to get access to over 600,000 books
Join perlego now to get access to over 600,000 books
Geometrical Theory of Diffraction for Electromagnetic Waves
Geometrical Theory of Diffraction for Electromagnetic Waves

Geometrical Theory of Diffraction for Electromagnetic Waves

Graeme L. James
Start free trial
shareBook
Share book
pages
300 pages
language
English
format
PDF
unavailableOnMobile
Not available on the Perlego app

Geometrical Theory of Diffraction for Electromagnetic Waves

Graeme L. James
Book details
Table of contents

About This Book

The continuous development of the Geometrical Theory of Diffraction (GTD), from its conception in the 1950s, has now established it as a leading analytical technique in the prediction of high-frequency electromagnetic radiation and scattering phenomena. Consequently, there is an increasing demand for research workers and students in electromagnetic waves to be familiar with this technique. In this book they will find a thorough and clear exposition of the GTD formulation for vector fields. It begins by describing the foundations of the theory in canonical problems and then proceeds to develop the method to treat a variety of circumstances. Where applicable, the relationship between GTD and other high-frequency methods, such as aperture field and the physical optics approximation, is stressed throughout the text. The purpose of the book, apart from expounding the GTD method, is to present useful formulations that can be readily applied to solve practical engineering problems. To this end, the final chapter supplies some fully worked examples to demonstrate the practical application of the GTD techniques developed in the earlier chapters.

Read More

Information

Publisher
The Institution of Engineering and Technology
Year
2011
ISBN
9781849193726
Topic
Technology & Engineering
Subtopic
Electrical Engineering & Telecommunications
Edition
3

Table of contents