A new E-field solution for a conducting surface small or comparable to the wavelength
Abstract
A new E-field solution is presented for the electric current and electric charge induced on a perfectly conducting surface illuminated by an incident electromagnetic field. This solution is a moment solution to the electric field integral equation on the surface. The expansion functions consist of a set of functions suitable for expanding the magnetostatic current and a set of functions whose surface divergences are suitable for expanding the electrostatic charge. The testing functions are similar to the expansion functions. With these expansion and testing functions, the new E-field solution works well with surfaces whose maximum dimension may be as small as 2 x 10 to the 15th power wavelengths or as large as a few wavelengths. Previous E-field solutions begin to deteriorate when the maximum dimension of the surface falls below a few hundredths of a wavelength. The new E-field solution is applied to a conducting circular disk and a conducting sphere.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- September 1982
- Bibcode:
- 1982STIN...8318989.
- Keywords:
-
- Current Density;
- Disks (Shapes);
- Electric Current;
- Electromagnetic Fields;
- Integral Equations;
- Surface Properties;
- Electrostatic Charge;
- Magnetostatics;
- Method Of Moments;
- Spheres;
- Communications and Radar