Canonical Problems in Scattering and Potential Theory Part II Acoustic and Electromagnetic Diffraction by Canonical Structures
Auteurs : Vinogradov S.S., Smith P. D., Vinogradova E.D.
Although the analysis of scattering for closed bodies of simple geometric shape is well developed, structures with edges, cavities, or inclusions have seemed, until now, intractable to analytical methods. This two-volume set describes a breakthrough in analytical techniques for accurately determining diffraction from classes of canonical scatterers with comprising edges and other complex cavity features. It is an authoritative account of mathematical developments over the last two decades that provides benchmarks against which solutions obtained by numerical methods can be verified.
The first volume, Canonical Structures in Potential Theory, develops the mathematics, solving mixed boundary potential problems for structures with cavities and edges. The second volume, Acoustic and Electromagnetic Diffraction by Canonical Structures, examines the diffraction of acoustic and electromagnetic waves from several classes of open structures with edges or cavities. Together these volumes present an authoritative and unified treatment of potential theory and diffraction-the first complete description quantifying the scattering mechanisms in complex structures.
Professor Sergei S. Vinogradov holds the post of Leading Scientist at the Institute of Radiophysics and Electronics, Kharkov, Ukraine.
Paul D. Smith is Professor of Applied Mathematics at the University of Dundee, Scotland.
Dr. Elena D. Vinogradova is also at the University of Dundee as a Visiting Scientist from the Institute of Radiophysics and Electronics, Kharkov, Ukraine.
Date de parution : 12-2020
15.6x23.4 cm
Date de parution : 04-2002
Ouvrage de 408 p.
15.6x23.4 cm
Thèmes de Canonical Problems in Scattering and Potential Theory... :
Mots-clés :
Dual Series Equations; Dielectric Sphere; acoustic scattering problems; Radar Cross-section; canonical scatterers; Electromagnetic Energy Density; potential theory; Teflon Sphere; noncanonical structures; Debye Potentials; electromagnetic scattering problems; Spherical Cavity; Energy Density; Spherical Cap; Cap Angle; Mixed Boundary Conditions; Focal Spot