The application of contraction theory to an iterative formulation of electromagnetic scattering
Abstract
Contraction theory is applied to an iterative formulation of electromagnetic scattering from periodic structures and a computational method for insuring convergence is developed. A short history of spectral (or k-space) formulation is presented with an emphasis on application to periodic surfaces. To insure a convergent solution of the iterative equation, a process called the contraction corrector method is developed. Convergence properties of previously presented iterative solutions to one-dimensional problems are examined utilizing contraction theory and the general conditions for achieving a convergent solution are explored. The contraction corrector method is then applied to several scattering problems including an infinite grating of thin wires with the solution data compared to previous works.
- Publication:
-
IEEE Transactions on Antennas and Propagation
- Pub Date:
- December 1985
- DOI:
- Bibcode:
- 1985ITAP...33.1354B
- Keywords:
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- Contraction;
- Electromagnetic Scattering;
- Iterative Solution;
- Reflectors;
- Wire Grid Lenses;
- Antenna Arrays;
- Canonical Forms;
- Convergence;
- Electric Fields;
- Flat Surfaces;
- Communications and Radar