To view prices and purchase online, please login or create an account now.



Scattering of Waves from Large Spheres

Hardback

Main Details

Title Scattering of Waves from Large Spheres
Authors and Contributors      By (author) Walter T. Grandy, Jr
Physical Properties
Format:Hardback
Pages:382
Dimensions(mm): Height 244,Width 170
Category/GenreOptics
Quantum physics
ISBN/Barcode 9780521661263
ClassificationsDewey:535.43 535.43
Audience
Professional & Vocational
Illustrations 11 Tables, unspecified; 1 Halftones, unspecified; 97 Line drawings, unspecified

Publishing Details

Publisher Cambridge University Press
Imprint Cambridge University Press
Publication Date 16 November 2000
Publication Country United Kingdom

Description

This book describes the scattering of waves, both scalar and electromagnetic, from impenetrable and penetrable spheres. Although the scattering of plane waves from spheres is an old subject, there is little doubt that it is still maturing as a broad range of new applications demands an understanding of finer details. In this book attention is focused primarily on spherical radii much larger than incident wavelengths, along with the asymptotic techniques required for physical analysis of the scattering mechanisms involved. Applications to atmospheric phenomena such as the rainbow and glory are included, as well as a detailed analysis of optical resonances. Extensions of the theory to inhomogeneous and nonspherical particles, collections of spheres, and bubbles are also discussed. This book will be of primary interest to graduate students and researchers in physics (particularly in the fields of optics, the atmospheric sciences and astrophysics), electrical engineering, physical chemistry and some areas of biology.

Reviews

"useful for anyone seeking to broaden his or her understanding and make connections between different theoretical approaches to scattering prolems...Grandy provides a fresh approach, incorporating many different physical models, to illuminate the physical characteristics of scattering from spheres." Am. J. Phys. 69 Oct 2001