Multiple scattering and depolarization by a randomly rough Kirchhoff surface
Abstract
A matrix approach has been developed to compute bistatic scattering coefficients which include shadowing and multiple scattering effects for a randomly rough Kirchhoff surface. The method permits the computation of these coefficients in terms of the existing single-scatter bistatic scattering coefficients. Thus the effects of multiple scattering are readily recognized from the expressions obtained. The bistatic scattering coefficients are shown to satisfy energy conservation to at least two significant figures. It is observed that while polarized backscattering is dominated by the single-scattering process, the depolarized backscattering is due to multiple scattering. Unlike depolarization by slightly rough surfaces or volume scattering, the angular behavior of the depolarized backscattering is similar to that of the polarized backscattering. The transitional behavior of the relative dominance between single and multiple scattering for the polarized and depolarized scattering coefficient as a function of the azimuth angle is illustrated.
- Publication:
-
IEEE Transactions on Antennas and Propagation
- Pub Date:
- May 1981
- DOI:
- Bibcode:
- 1981ITAP...29..463F
- Keywords:
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- Backscattering;
- Microwave Scattering;
- Polarization (Waves);
- S Matrix Theory;
- Scattering Coefficients;
- Surface Roughness Effects;
- Azimuth;
- Bistatic Reflectivity;
- Energy Conservation;
- Forward Scattering;
- Communications and Radar