A high efficiency wideband co-polarised metalens antenna

IF 1.1 4区 计算机科学 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
JiaJun Liang, Zhao Wu, Long Li, YanHu Huang
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Abstract

The traditional co-polarised metasurface achieves 360° phase coverage only at the resonant frequency but not full phase coverage across a wide bandwidth. This paper proposes a multilayer structure metasurface, which composes of five layers of metal patch and four layers of medium, forming the Fabry–Perry resonator, using the principle of the cancellation of two polarisation conversion, which can achieve a wideband efficient co-polarisation transmission. Based on the metasurface transmission phase principle, 360° phase coverage has been achieved by changing the geometric parameters of the intermediate metal patches. Through phase compensation arrangement, a metalens is designed using the proposed metasurface unit cell. At the same time, horn antenna is used as a feed to feed the metalens, which can significantly improve the gain of the antenna within a wideband. Simulated and measured results show that the proposed metalens antenna operates at 22–26 GHz, and the maximum measured gain of the metalens antenna reaches 24.16 dBi at 25 GHz, which is 10.85 dB higher than the horn antenna without metasurface compensation, showing good focusing performance. The proposed multilayer metasurface breaks the narrow band limit of the traditional stacked metasurface in principle, opening a way in the broadband metasurface design.

Abstract Image

高效宽带同极化金属天线
传统的共偏振元表面只能在谐振频率上实现 360° 的相位覆盖,而不能在宽带宽范围内实现全相位覆盖。本文提出了一种多层结构元面,由五层金属贴片和四层介质组成法布里-佩里谐振器,利用两极化转换抵消原理,可实现宽带高效共极化传输。根据元面传输相位原理,通过改变中间金属贴片的几何参数,实现了 360° 的相位覆盖。通过相位补偿安排,利用所提出的元面单元单元设计出了金属天线。同时,利用喇叭天线作为馈源馈送金属天线,可显著提高天线在宽带内的增益。仿真和测量结果表明,所提出的金属天线工作频率为 22-26 GHz,金属天线在 25 GHz 时的最大测量增益达到 24.16 dBi,比未使用元表面补偿的号角天线高出 10.85 dB,显示出良好的聚焦性能。所提出的多层元面从原理上打破了传统叠层元面的窄带限制,为宽带元面设计开辟了一条道路。
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来源期刊
Iet Microwaves Antennas & Propagation
Iet Microwaves Antennas & Propagation 工程技术-电信学
CiteScore
4.30
自引率
5.90%
发文量
109
审稿时长
7 months
期刊介绍: Topics include, but are not limited to: Microwave circuits including RF, microwave and millimetre-wave amplifiers, oscillators, switches, mixers and other components implemented in monolithic, hybrid, multi-chip module and other technologies. Papers on passive components may describe transmission-line and waveguide components, including filters, multiplexers, resonators, ferrite and garnet devices. For applications, papers can describe microwave sub-systems for use in communications, radar, aerospace, instrumentation, industrial and medical applications. Microwave linear and non-linear measurement techniques. Antenna topics including designed and prototyped antennas for operation at all frequencies; multiband antennas, antenna measurement techniques and systems, antenna analysis and design, aperture antenna arrays, adaptive antennas, printed and wire antennas, microstrip, reconfigurable, conformal and integrated antennas. Computational electromagnetics and synthesis of antenna structures including phased arrays and antenna design algorithms. Radiowave propagation at all frequencies and environments. Current Special Issue. Call for papers: Metrology for 5G Technologies - https://digital-library.theiet.org/files/IET_MAP_CFP_M5GT_SI2.pdf
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