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Dual-band frequency reconfigurable metasurface antenna for millimeter wave joint communication and radar sensing systems

Xiaocha Liu, Xiaoyi Wang, Guo‐Min Yang, Dang Xiang, Lirong Zheng

2024Optics Express29 citationsDOIOpen Access PDF

Abstract

This paper introduces an innovative, compact, and high-gain metasurface antenna, covering both the 24 GHz millimeter wave (mmWave) radar band and the 5 G n257 and n258 bands. The proposed metasurface antenna consists of a wideband stacked patch antenna and a dual-layer metasurface to focus its radiation beams for multiple mmWave bands. The operating frequency can be slightly shifted by altering the distance between the feeder and the metasurface. The distribution of the metasurface unit cells is designed based on a simplified phase compensation formula. The dimension of the fabricated feeder is 6 mm × 6 mm, and the metasurface occupies a 65 mm × 65 mm radome area. Experimental results demonstrate a wide bandwidth from 23.5 GHz to 29.1 GHz for the feeder, and impressive maximum gains of 19.7 dBi and 19.5 dBi for the lower band and higher band of the metasurface antenna are achieved simultaneously. The frequency reconfiguration ability was characterized by a 750 MHz frequency shift with every 1 mm distance adjustment. The compact size and high gain performance of the proposed design underscore its potential for practical applications in millimeter wave joint communication and radar sensing systems.

Topics & Concepts

RadomeExtremely high frequencyOpticsWidebandBandwidth (computing)Multi-band deviceAntenna (radio)Radio spectrumReconfigurable antennaRadarFrequency bandPhysicsRadiation patternComputer scienceAntenna efficiencyTelecommunicationsAntenna Design and AnalysisAdvanced Antenna and Metasurface TechnologiesMetamaterials and Metasurfaces Applications
Dual-band frequency reconfigurable metasurface antenna for millimeter wave joint communication and radar sensing systems | Litcius