Mathematical Simulation of Electromagnetic Scattering Field from Perfectly Conducting Object with Dielectric Cover on the Base of Physical Theory of Diffraction
Author:
Affiliation:
1. Department of radioelectronic systems and complexes, Bauman Moscow State Technical University, Russia
2. Department of autonomous information and control systems, Bauman Moscow State Technical University, Russia
Publisher
ACM Press
Reference27 articles.
1. P. Ufimtsev. 2007. Fundamentals of the Physical Theory of Diffraction. Wiley-IEEE Press.
2. A. Borzov, V. Akhiyarov and V. Suchkov. Digital modelling of scattering characteristics of location objects with wedge-shaped structures on base of their polygonal models. In Proceedings of 1-st All-Russian Microwave Conference, Moscow: Kotelnikov IRE of RAS. Moscow, 61--65.
3. C. C. Lu and W. C. Chew. 1999. Electromagnetic scattering from material coated PEC objects: a hybrid volume and surface integral equation approach. Antennas and Propagation Society International Symposium. Orlando, 2562--2565.
4. S. M. Rao et al. 1991. Electromagnetic scattering from arbitrary shaped conducting bodies coated with lossy materials of arbitrary thickness. IEEE Transactions on Antennas and Propagation. Volume 39(5), 627--631.
5. P. Vafeas, G. Perrusson and D. Lesselier. 2004. Low--frequency solution for a perfectly conducting sphere in a conductive medium with dipolar excitation. Progress in Electromagnetics Research. 49, 87--111.
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