Title :
Improvement of the Rayleigh approximation for scattering from a small scatterer
Author :
Karam, Mostafa A. ; LeVine, David M. ; Antar, Yahia M M ; Stogryn, Alex
Author_Institution :
Aerojet Electron. Syst. Plant, Azusa, CA, USA
fDate :
7/1/1995 12:00:00 AM
Abstract :
An improvement of the Rayleigh approximation for electromagnetic scattering from an arbitrary small scatterer is developed through solving the conventional integro-differential equation governing the electric field inside the scatterer. The improvement is represented by an equivalent polarizability tensor differing from that used in the Rayleigh approximation in two aspects: (i) it is frequency dependent, and (ii) it gives a scattering amplitude tensor satisfying energy conservation. The energy conservation is investigated through formulating the extinction, scattering, and absorption losses according to the equivalent polarizability tensor. Numerical calculations on spheres and spheroids indicate that the present extinction loss formulation has a wider validity range than the extinction loss formulation according to the Rayleigh approximation
Keywords :
Rayleigh scattering; approximation theory; electric fields; electromagnetic wave absorption; electromagnetic wave polarisation; electromagnetic wave scattering; integro-differential equations; losses; Rayleigh approximation; absorption loss; electric field; electromagnetic scattering; energy conservation; equivalent polarizability tensor; extinction loss; integro-differential equation; scattering amplitude tensor; scattering loss; small scatterer; spheres; spheroids; Absorption; Electromagnetic scattering; Energy conservation; Equations; Frequency; Ice; Particle scattering; Polarization; Rayleigh scattering; Tensile stress;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
