X-band high directivity lens antenna realized by gradient index metamaterials

X-band high directivity lens antenna realized by gradient index metamaterials

This paper presents the theoretical modeling and prototype demonstration of broadband, low loss, and dual polarization capability of a gradient index metamaterial lens using multilayer microstrip square ring arrays. Microstrip closed square ring elements of variable size are distributed on the plana...

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Bibliographic Details
Published in:2009 Asia Pacific Microwave Conference pp. 793 - 797
Main Authors: Xi Chen, Huifeng Ma, Xinmi Yang, Qiang Cheng, Wei Xiang Jiang, Tie Jun Cui
Format: Conference Proceeding
Language:English
Published: IEEE 01-12-2009
Subjects:
Broadband antennas
broadband Metamaterials
Closed Square Ring
Dual Polarization
Gradient Index Lens
High Directivity
Impedance
Impedance Match Layer
Lens Antenna
Lenses
Metamaterials
Microstrip antenna arrays
Nonhomogeneous media
Polarization
Prototypes
Radar antennas
Virtual prototyping
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Summary:This paper presents the theoretical modeling and prototype demonstration of broadband, low loss, and dual polarization capability of a gradient index metamaterial lens using multilayer microstrip square ring arrays. Microstrip closed square ring elements of variable size are distributed on the planar substrate to satisfy the radial gradient index function and axial impedance match layer configuration of the lens, which is designed to transform spherical wave-front into planar wave-front and minimize reflection loss. A prototype gradient index lens antenna composed of multilayer of CSR arrays and a PEC horn are modeled and simulated. The simulation results shows that the prototype lens antenna maintain low return loss and high directivity over X-band. These results demonstrate the feasibility of such a light weight slab metamaterial lens for broadband and high directivity antenna application, such as in radar and communication system.
ISBN:9781424428014
1424428017
ISSN:2165-4727
2165-4743
DOI:10.1109/APMC.2009.5384269