Title :
Incremental length diffraction coefficients for arbitrary cylindrical scatterers
Author :
Yaghjian, Arthur D.
Author_Institution :
Air Force Res. Lab., Hanscom AFB, MA, USA
fDate :
7/1/2001 12:00:00 AM
Abstract :
Convenient expressions are derived for incremental length diffraction coefficients (ILDCs) in terms of the far fields of arbitrary cylindrical canonical scatterers composed of linear electromagnetic material. The derivation of these general expressions for ILDCs is based on a surface-current equivalence theorem that states that the electromagnetic fields outside cylindrical sources can be generated to any degree of accuracy by localized electric and magnetic surface currents that lie in a single plane within the source region. This equivalence theorem is proven with the help of cylindrical wave expansions and the Kottler-Franz formulas. It combines with a general even and odd decomposition of cylindrical electromagnetic fields to allow the use of previous formulas for planar surface current ILDCs in the derivation of the general expressions for ILDCs in terms of cylindrical far fields
Keywords :
electric current; electromagnetic fields; electromagnetic wave diffraction; electromagnetic wave scattering; integration; wave functions; ILDC integration curves; Kottler-Franz formulas; cylindrical canonical scatterers; cylindrical electromagnetic fields; cylindrical far fields; cylindrical wave expansions; even decomposition; incremental length diffraction coefficients; linear electromagnetic material; localized electric surface current; localized magnetic surface current; odd decomposition; planar surface current ILDC; source region; surface-current equivalence theorem; wave functions; Electromagnetic diffraction; Electromagnetic fields; Electromagnetic scattering; Electromagnetic wave polarization; Genetic expression; Magnetic materials; Optical scattering; Optical surface waves; Physical theory of diffraction; Strips;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
