Steering Phased Array Antenna Beams to the Horizon Using a Buckyball NIM Lens

Author

Lam, T.A. ; Vier, D.C. ; Nielsen, J.A. ; Parazzoli, C.G. ; Tanielian, M.H.

Author_Institution

Boeing Res. & Technol., Seattle, WA, USA

Volume

99

Issue

10

fYear

2011

Firstpage

1755

Lastpage

1767

Abstract

In this paper, we present the design, optimization, fabrication, and measurement of a negative index metamaterial (NIM) buckyball shell lens to steer phased array antenna (PAA) beams to the horizon. The conformal mapping technique of transformation optics is utilized in the design process to facilitate with lens fabrication. A new dual polarization unit cell is designed to avoid the issues associated with short cut wires, were a split ring resonator (SRR) and wire design to be used. The lens is measured using an actual PAA and it demonstrates to-the-horizon scanning as designed, although the material loss is high. An improved unit cell design is proposed to reduce several known loss mechanisms. A new lens design methodology using Bezier curves as seed surfaces is also described.

Keywords

antenna phased arrays; conformal mapping; lenses; metamaterial antennas; Bezier curves; SRR; buckyball NIM lens; conformal mapping technique; dual polarization unit cell; improved unit cell design; lens design methodology; lens fabrication; loss mechanism reduction; negative index metamaterial buckyball shell lens measurement; negative index metamaterial lens; short cut wires; split ring resonator; steer PAA beams; steer phased array antenna beams; transformation optics; Antenna arrays; Arrays; Metamaterials; Phased arrays; Tensile stress; Negative index metamaterial (NIM); RF lenses; phased array antenna (PAA) radome; scanning to the horizon;

fLanguage

English

Journal_Title

Proceedings of the IEEE

Publisher

ieee

ISSN

0018-9219

Type

jour

DOI

10.1109/JPROC.2011.2128290

Filename

5873111