Electromagnetic Modeling of Spherically Stratified Lenses Illuminated by Arbitrary Sources

Author

Sipus, Zvonimir ; Bojanjac, Dario ; Komljenovic, Tin

Author_Institution

Fac. of Electr. Eng. & Comput., Univ. of Zagreb, Zagreb, Croatia

Volume

63

Issue

4

fYear

2015

fDate

Apr-15

Firstpage

1837

Lastpage

1843

Abstract

This communication presents an accurate and computationally efficient method for designing spherical lens antennas. The method is based on spherical-wave modal expansion of both the electromagnetic field scattered by a multilayer lens and the far-field radiation pattern of a feed antenna. The two expansions are connected by transforming the fields from the local to the global coordinate system, i.e., by determining the equivalent current sources of the spherical lens Green´s function. An important benefit of this method lies in the simplicity of implementing various feeding antennas in the design process. To verify the method, the results of the analysis are compared with measured radiation patterns of Luneburg lens antennas. Finally, the design guidelines for optimization of the whole lens antenna system are also discussed in the communication.

Keywords

Green´s function methods; antenna theory; computational electromagnetics; electromagnetic wave scattering; lens antennas; Green function; electromagnetic field scattering; electromagnetic modeling; equivalent current sources; far-field radiation pattern; feed antenna; global coordinate system; multilayer lens; spherical lens antenna design; spherical wave modal expansion; spherically stratified lens; Antenna feeds; Antenna measurements; Antenna radiation patterns; Harmonic analysis; Lenses; Luneburg antennas; Spherical lens antennas; spherical lens antennas; spherical-wave expansion; vector-Legendre transformation;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/TAP.2015.2394801

Filename

7017543