Radar Cross Section Analysis and ControlThis reference describes techniques for controlling the RCS of targets, provides analytical methods for estimating RCS, develops models for the design of low RCS targets and antennas, and discusses several RCS enhancement techniques. |
Contents
Methods For RCS Estimation | 33 |
Radar CrossSection Enhancement | 115 |
Reduction of Radar Cross Section | 141 |
Copyright | |
4 other sections not shown
Common terms and phrases
aircraft amplitude angle of incidence Antennas and Propagation apertures approximation aspect angle asymptotic AZIMUTH backscattering cross section bistatic scattering boundary conditions CALCULATED CALL SMC circular circular polarization CONE corner reflector corrugated cross-polarized cylinder D₁ dielectric diffraction diffraction coefficient dihedral corner reflector diode discussed disk edge electromagnetic scattering electromagnetic wave experimental finite flat plate free space frequency Fresnel integral FRUSTRUM geometry given horizontal polarizations IEEE Figure IEEE Trans integral equation layer loading lossy Luneberg lens magnetic MAGNITUDE material measured medium metallic method normal incidence obtained parameters perfectly conducting PHASE physical optics PIN diode plane wave PRINT Radar Cross Section radius RCS reduction rectangular reflection coefficient Salisbury screen scattered field scattering cross section shadow boundaries shown in Figure solution specular SUBROUTINE T. B. A. Senior techniques theoretical Theory of Diffraction thickness versus wavelength wedge