Enhancement of Radar Detection Accuracy Using H-Beam Wave Polarization in Random Media

This work addresses the range in which the accuracy of object identification is enhanced regardless of radar parameters. We compute the radar cross-section (RCS) of conducting objects in free space and random media. We use beam wave incidence and postulate its coherency with a finite width around an object located in the far field. Accordingly, we examine the impact of radar parameters on the RCS, where these parameters include the incident angle, target size and complexity, medium fluctuation intensity and the beam size of the incident waves. H-wave polarization is assumed for the waves’ incidence.

Light polarization and the Brewster law

It was obtained an analytical dependance of the relative intensity of the light beam reflected from the boundary of two transparent bodies expressing the law been established experimentally by Brewster. It was found on basis of comparison of the values of parallel and perpendicular components of the electrical vectors of the incident beam wave trains to the direction of the reflected beam.