Title :
High-Frequency Scattering From Radially Uniaxial Dielectric Sphere
Author :
Yazdani, Mohsen ; Mautz, Joseph ; Murphy, Luke ; Arvas, Ercument
Author_Institution :
Syracuse Univ., Syracuse, NY, USA
Abstract :
High-frequency backscattering caused by a large uniaxial dielectric sphere is presented in this letter. The term high frequency implies Ka ≫ 1 where K and a are the propagation constant and radius of the sphere, respectively. Using a modified Watson transformation, the slowly convergent generalized Mie series summation for a uniaxial dielectric sphere is transformed into a rapidly convergent contour integral. The generalized Debye series of the uniaxial dielectric spheres is introduced, and the Mie series coefficients are replaced by their equivalent Debye series formulations. An expression for the high-frequency backscattered field is proposed, and the monostatic radar cross section (RCS) of a large uniaxial dielectric sphere is calculated.
Keywords :
Mie scattering; backscatter; dielectric bodies; radar cross-sections; Debye series; Mie series summation; Watson transformation; convergent contour integral; high-frequency backscattering; monostatic RCS; monostatic radar cross section; propagation constant; uniaxial dielectric sphere; Backscatter; Dielectrics; Electromagnetic scattering; Microwave antennas; Optics; High-frequency backscattering; Watson transformation; monostatic radar cross section (RCS); uniaxial sphere;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2015.2413399
