Title :
Small Hemielliptic Dielectric Lens Antenna Analysis in 2-D: Boundary Integral Equations Versus Geometrical and Physical Optics
Author :
Boriskin, Artem V. ; Godi, Gaël ; Sauleau, Ronan ; Nosich, Alexander I.
Author_Institution :
Nat. Acad. of Sci. of Ukraine, Kharkiv
Abstract :
We assess the accuracy and relevance of the numerical algorithms based on the principles of geometrical optics (GO) and physical optics (PO) in the analysis of reduced-size homogeneous dielectric lenses prone to behave as open resonators. As a benchmark solution, we use the Muller boundary integral equations (MBIEs) discretized with trigonometric Galerkin scheme that has guaranteed and fast convergence as well as controllable accuracy. The lens cross-section is chosen typical for practical applications, namely an extended hemiellipse whose eccentricity satisfies the GO focusing condition. The analysis concerns homogeneous lenses made of rexolite, fused quartz, and silicon with the size varying between 3 and 20 wavelengths in free space. We consider the 2D case with both - and -polarized plane waves under normal and oblique incidence, and compare characteristics of the near fields.
Keywords :
Galerkin method; antenna theory; boundary integral equations; geometrical optics; lens antennas; physical optics; 2D analysis; E-polarized plane waves; H-polarized plane waves; Muller boundary integral equation; fused quartz; geometrical optics; hemielliptic dielectric lens antenna analysis; homogeneous dielectric lenses; normal incidence plane waves; oblique incidence plane waves; physical optics; rexolite; silicon; trigonometric Galerkin scheme; Algorithm design and analysis; Dielectrics; Finite difference methods; Geometrical optics; Integral equations; Lenses; Optical design; Optical materials; Physical optics; Time domain analysis; Boundary integral equations (BIEs); dielectric lens antennas; geometrical optics (GO); physical optics (PO);
Journal_Title :
Antennas and Propagation, IEEE Transactions on
DOI :
10.1109/TAP.2007.915432
