Frequency agility of dielectric resonator using top‐loaded rotatable anisotropic metasurface

Dielectric resonators (DRs) are widely investigated and applied due to the high Q‐factor feature. Their frequency agility is desperately needed in modern communication systems. In this letter, we propose a novel tuning method for DRs using top‐loaded rotatable anisotropic metasurface, instead of the...

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Veröffentlicht in:	Microwave and optical technology letters 2023-12, Vol.65 (12), p.3191-3195
Hauptverfasser:	Ke, Yan‐Hui, Zhang, Jie‐Er, Zhang, Qinfang, Yang, Wen‐Wen, Shi, Xu, Chen, Jian‐Xin
Format:	Artikel
Sprache:	eng
Schlagworte:	Communications systems Incident waves Metasurfaces Resonators Substrates Tunable filters Tuning
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creator	Ke, Yan‐Hui Zhang, Jie‐Er Zhang, Qinfang Yang, Wen‐Wen Shi, Xu Chen, Jian‐Xin
description	Dielectric resonators (DRs) are widely investigated and applied due to the high Q‐factor feature. Their frequency agility is desperately needed in modern communication systems. In this letter, we propose a novel tuning method for DRs using top‐loaded rotatable anisotropic metasurface, instead of the traditional mechanical tuning structures or electrical switches. The effective permittivity of the anisotropic metasurface varies with the E‐field direction of the incident wave. We can tune the resonate frequency by rotating the metasurface placed on the top of the DR. To demonstrate the feasibility of this method, a tunable DR with the anisotropic metasurface printed on a thin substrate is designed, fabricated, and measured. With a compact profile, the prototype provides a wide tuning range of 8.4% from 4.80 to 5.22 GHz and a Q‐factor higher than 1098. The good tuning performance makes the proposed method highly potential for tunable filters and frequency‐reconfigurable antennas.
doi_str_mv	10.1002/mop.33869
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subjects	Communications systems Incident waves Metasurfaces Resonators Substrates Tunable filters Tuning
title	Frequency agility of dielectric resonator using top‐loaded rotatable anisotropic metasurface
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