Generation of Millimeter-Wave Vortex Beams Based on Spoof Localized Surface Plasmons

In this letter, an efficient design based on spoof localized surface plasmons (spoof LSPs) is proposed to generate millimeter-wave (MMW) vortex beams. A textured ring resonator with annularly distributed strips is adopted to excite and enhance the LSP modes. By loading a hybrid coupler into the two-...

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Veröffentlicht in:	IEEE photonics technology letters 2024-06, Vol.36 (11), p.701-704
Hauptverfasser:	Tan, Xiaolong, Wang, Yelong, Qi, Feng, Wang, Anning, Hu, Nairui, Chen, Baoquan, Bao, Shanshan, Guo, Song, Liang, Yvxin
Format:	Artikel
Sprache:	eng
Schlagworte:	Antenna measurements Antenna radiation patterns Antennas Couplers Electron beams Feeds Millimeter waves millimeter-wave OAM antenna Plasmons Simulation spoof localized surface plasmons vortex beams Wireless communication
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container_title	IEEE photonics technology letters
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creator	Tan, Xiaolong Wang, Yelong Qi, Feng Wang, Anning Hu, Nairui Chen, Baoquan Bao, Shanshan Guo, Song Liang, Yvxin
description	In this letter, an efficient design based on spoof localized surface plasmons (spoof LSPs) is proposed to generate millimeter-wave (MMW) vortex beams. A textured ring resonator with annularly distributed strips is adopted to excite and enhance the LSP modes. By loading a hybrid coupler into the two-port network, two orthogonal modes with the required ±90° phase delays are achieved to generate OAM waves. Both simulations and experiments demonstrate that MMW vortex beams can be efficiently radiated by the OAM antennas. The approach discussed here provides a way for OAM generation, which has great application potential in the material sensors.
doi_str_mv	10.1109/LPT.2024.3386675
format	Article
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subjects	Antenna measurements Antenna radiation patterns Antennas Couplers Electron beams Feeds Millimeter waves millimeter-wave OAM antenna Plasmons Simulation spoof localized surface plasmons vortex beams Wireless communication
title	Generation of Millimeter-Wave Vortex Beams Based on Spoof Localized Surface Plasmons
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