Radar Cross Section Eugene F. Knott Pdf 'link'

The size of the target relative to the radar's wavelength alters the scattering behavior. This classifies scattering into three regions: Rayleigh (target is much smaller than wavelength), Resonance (target size matches wavelength), and Optical (target is much larger than wavelength).

Knott’s unique genius was his ability to bridge pure mathematics (Maxwell’s equations, physical optics) with gritty engineering (monostatic vs. bistatic RCS, diffraction coefficients). He literally wrote the manual that Lockheed Martin’s Skunk Works used to design the F-117 Nighthawk. radar cross section eugene f. knott pdf

Understanding Radar Cross Section: A Guide to the Insights of Eugene F. Knott The size of the target relative to the

In reality, RCS depends on a complex mix of variables rather than just the physical size of the target: bistatic RCS, diffraction coefficients)

Eugene F. Knott was a preeminent expert in electromagnetics and radar signature management. Over his illustrious career, which included significant work at the Georgia Institute of Technology (Georgia Tech) and Boeing, Knott pioneered methods for calculating and reducing the radar signatures of aircraft and missiles.