Compact Cylinder Luneburg-Lens Antennas Based on 3-D-Printing Technology

The Luneburg-lens is a prospective candidate for implementing multibeam antennas. However, the size of the conventional configuration is bulky, and most reported works are linearly polarized (LP), leading to some inconvenience in the practical applications. To deal with these problems, a new approac...

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Veröffentlicht in:IEEE transactions on antennas and propagation 2023-03, Vol.71 (3), p.2311-2320
Hauptverfasser: Zheng, Yi Xuan, Xiang, Bing Jie, Pan, Yong Mei, Zheng, Shao Yong
Format: Artikel
Sprache:eng
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Zusammenfassung:The Luneburg-lens is a prospective candidate for implementing multibeam antennas. However, the size of the conventional configuration is bulky, and most reported works are linearly polarized (LP), leading to some inconvenience in the practical applications. To deal with these problems, a new approach to realize a compact LP Luneburg-lens antenna is proposed first, and then, a method for implementing circular polarization (CP) property is further proposed. An air-coated dielectric cylinder is rotated around the center axis to form different layers of an equivalent cylindrical Luneburg-lens. The corresponding theoretical model to calculate the equivalent permittivity is given. Based on this approach, a Luneburg-lens is constructed using one dielectric cylinder and nine dielectric rings with the same permittivity but different dimensions. The proposed lens can be easily fabricated through the 3-D printing technology with low manufacturing complexity. For validation, an LP and a CP Luneburg-lens antenna operating at the Ka-band were designed, fabricated, and measured. A good consistency between simulated results and measured ones can be found. The LP antenna achieves a wide-scanning range of 174° and a bandwidth of 28.6%. Also, the CP one exhibits a scanning range of 134° and an AR bandwidth of 17.4%.
ISSN:0018-926X
1558-2221
DOI:10.1109/TAP.2023.3237262