Low-Profile and Wideband Dual-Circularly Polarized Reflect-Arrays Based on Rotated Metal-Backed Dual-Polarized Aperture-Coupled Patch Elements

In this article, the theory, design, and experimental verification of low-profile and wideband dual-circularly polarized (dual-CP) reflect-arrays (RAs) with independent handedness-based beamforming are reported. Such functionality is enabled by simultaneously exploiting the dynamic phase and Berry p...

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Bibliographic Details
Published in:IEEE transactions on antennas and propagation 2020-03, Vol.68 (3), p.2108-2117
Main Authors: Jiang, Zhi Hao, Yue, Taiwei, Hong, Wei
Format: Article
Language:English
Subjects:
Apertures
Array signal processing
Bandwidths
Beamforming
Beams (radiation)
Broadband
Circular polarization
Delays
Dual circular polarizations
Dual polarization (waves)
Feeds
Gain
Mathematical analysis
Matrix methods
millimeter-wave
reflect-arrays (RAs)
Reflectance
Vehicle dynamics
Wideband
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Summary:In this article, the theory, design, and experimental verification of low-profile and wideband dual-circularly polarized (dual-CP) reflect-arrays (RAs) with independent handedness-based beamforming are reported. Such functionality is enabled by simultaneously exploiting the dynamic phase and Berry phase compensation techniques, which is illustrated mathematically by deriving the required conditions for the reflection coefficient matrix of the dual-CP RA phasing elements. Different from previously proposed multifunctional layer RAs for controlling waves with different handedness, here the independent dual-CP phase shifting is accomplished with only a single functional layer of elements. As proof-of-concept examples, rotated metal-backed dual-polarized aperture-coupled patches, with a profile of lower than 0.3\lambda _{0} , are designed, providing 2\,\,\times2 bit dual-CP phase shifting that can offer independent beamforming of left-/right-handed CP (LHCP/RHCP) waves with an LHCP/RHCP feed antenna. Utilizing the proposed dual-CP elements, two specific dual-CP RAs operating in the Ka -band are synthesized, fabricated, and characterized, achieving either symmetrical or asymmetrical dual-CP beams over a wide bandwidth. The experimentally measured peak gain is higher than 28 dBic, while the joint axial ratio
ISSN:0018-926X
1558-2221
DOI:10.1109/TAP.2019.2948564