Scattering patterns of dihedral corner reflectors with impedance surface impedances
Abstract
The radar cross section patterns of lossy dihedral corner reflectors are calculated using a uniform geometrical theory of diffraction for impedance surfaces. All terms of up to third order reflections are considered for patterns in the principal plane. The surface waves are included whenever they exist for reactive surface impedances. The dihedral corner reflectors examined have right, obtuse, and acute interior angles, and patterns over the entire 360 deg azimuthal plane are calculated. The surface impedances can be different on the four faces of the dihedral corner reflector; however, the surface impedance must be uniform over each face. Computed cross sections are compared with a moment method technique for a dielectric/ferrite absorber coating on a metallic corner reflector. The analysis of the dihedral corner reflector is important because it demonstrates many of the important scattering contributors of complex targets including both interior and exterior wedge diffraction, half-plane diffraction, and dominant multiple reflections and diffractions.
- Publication:
-
Arizona State University Technical Report
- Pub Date:
- 1988
- Bibcode:
- 1988asu..reptR....B
- Keywords:
-
- Diffraction;
- Dihedral Angle;
- Impedance;
- Radar Corner Reflectors;
- Radar Cross Sections;
- Radar Scattering;
- Surface Properties;
- Angles (Geometry);
- Coatings;
- Dielectrics;
- Ferrites;
- Reflection;
- Communications and Radar