A frequency and beamwidth reconfigurable antenna based on liquid crystal for 5G millimeter waves
Abstract In this paper, a novel frequency and beamwidth reconfigurable antenna is proposed. The antenna features a 5-layer vertically stacked structure with the dimensions of $$22\times 30\times 7.768$$ $$\hbox {mm}^{3}$$ , and the layers from top to bottom are the radiating layer, the orientation l...
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| Main Authors: | , , , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Nature Portfolio
2025-05-01
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| Series: | Scientific Reports |
| Online Access: | https://doi.org/10.1038/s41598-025-01673-0 |
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| Summary: | Abstract In this paper, a novel frequency and beamwidth reconfigurable antenna is proposed. The antenna features a 5-layer vertically stacked structure with the dimensions of $$22\times 30\times 7.768$$ $$\hbox {mm}^{3}$$ , and the layers from top to bottom are the radiating layer, the orientation layer, the liquid crystal (LC) layer, the orientation layer, and the ground layer, and a liquid crystal cavity integrated into the LC layer. An inverted microstrip feed line structure is employed as the bias electrode, and connecting it to a coaxial line side-feed adapter for excitation of the antenna. To investigate the beamwidth reconfigurability, two parasitic dipole structures-all disconnected or connected-are placed on either side of the main radiating element for comparative analysis. Experimental results reveal that the antenna’s resonance frequency shifts from 31.78 GHz to 27.1 GHz, providing a frequency reconfigurable range of 14.73%. Notably, this frequency tuning process is minimally influenced by the type of parasitic patch. Additionally, the impedance bandwidth and -3dB beamwidth of the antenna remain largely unaffected by the reconfiguration. Testing the antenna with different parasitic patch structures, the -3dB beamwidth of the antenna expands from $$47^{\circ }$$ to $$92^{\circ }$$ at $$\varepsilon _r = 2.7$$ for the LC, and from $$53.5^{\circ }$$ to $$81^{\circ }$$ at $$\varepsilon _r = 3.1$$ , and the antenna peak gain of 6.04 dBi and 7.58 dBi, separately. These results correspond to a reconfigurable range of 64.75% and 40.89% for the -3dB beamwidth, respectively. |
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| ISSN: | 2045-2322 |