Title :
Scatter measured from impedance discontinuities
Author_Institution :
LORAL Infrared & Imaging Syst., Lexington, MA, USA
fDate :
4/1/1996 12:00:00 AM
Abstract :
The vertically-polarized (electric vector in the plane of incidence) radar cross sections of four-square doped silicon samples that were inserted in a diamond-shaped aluminum fixture have been measured at elevation angles of both 5.5° and 18° (near grazing incidence) at an azimuth angle normal to the edge of the samples. The measured scatter matches predictions for samples inserted in an infinite conductive plane that were made using two different two-dimensional models at 18°, but was 2-6 dB below predictions at 5.5° in all cases. A comparison between predictions made with and without a Leontovich impedance-boundary-condition (IBC) approximation demonstrates that the discrepancy between theory and measurement at 5.5° is not caused by the use of this approximation in the predictions. The most likely source of the discrepancy is the finite extent of the diamond-shaped fixture used in the measurements
Keywords :
electric impedance; radar cross-sections; synthetic aperture radar; Al; Leontovich impedance-boundary-condition approximation; Si; azimuth angle normal; diamond-shaped Al fixture; elevation angles; four-square doped Si samples; impedance discontinuities; infinite conductive plane; scatter; two-dimensional models; vertically-polarized radar cross sections; Aluminum; Azimuth; Conductivity measurement; Electric variables measurement; Fixtures; Goniometers; Impedance measurement; Radar cross section; Radar scattering; Silicon;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
