Understanding Electromagnetic Scattering Using the Moment Method
A Practical Approach
Published on 31. January 1996
Book
Hardback
268 pages
978-0-89006-859-5 (ISBN)
Description
Showing how to solve electromagnetic scattering problems using the Moment Method, this book provides example problems, reviews the numerical techniques required to solve them and demonstrates how to solve scattering from basic shapes. FORTRAN code is included in the appendix and diskette.
More details
Series
Language
English
Place of publication
Norwood
United States
Target group
College/higher education
Professional and scholarly
Product notice
Laminated cover
Illustrations
1, black & white illustrations
Dimensions
Height: 235 mm
Width: 158 mm
Thickness: 23 mm
Weight
567 gr
ISBN-13
978-0-89006-859-5 (9780890068595)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Person
Randy Bancroft is a member of the technical staff at Thomson Consumer Electronics. He received his B.S.E.E. from Iowa State University and his M.S.E.E. from The University of Colorado at Boulder.
Content
Numerical Integration: Singular Integrands. Richardson's Extrapolation. Midpoint Integration with Richardson's Extrapolation. References. Moment Method: Surface Charge on a Conductive Strip. Galerkin's Method. Symmetry. Capacitance of a Square Conducting Plate. Concluding Remarks. References. Thin Wire Scattering: Hallen's Equation. MM Solution (Pulse/Delta). MM Solution (Triangle/Delta). MM Solution for an Arbitrary Incident Angle. References. Scattering from Conductive Strips: RCS of Perfectly Conducting Strip. Calculation of Two-Dimensional Radar Cross Section. Numerical Results of TM and TE Scattering. TM Scattering from Resistive Strips. References. Scattering from Two-Dimensional Contours: RCS of Perfectly Conducting Contour. Monostatic and Bistatic Radar Cross Section. References. Radar Cross Section of a Flat Plate: RCS of a Thin Perfectly Conducting Square Plate. Concluding Remarks. References.