An efficient broadband metasurface design for smart health care and future communication applications

IF 3 Q3 Physics and Astronomy Results in Optics Pub Date : 2025-05-01 Epub Date: 2025-02-07 DOI:10.1016/j.rio.2024.100772

Abdulkadir Cildir , Farooq A. Tahir , Abdul Jabbar , Adnan Zahid , Masood ur Rehman , Hasan Abbas , Qammer H. Abbasi

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Abstract

We propose a broadband metasurface consisting of a novel compact resonator to achieve linear polarization conversion in reflection mode. This compact resonator is designed on Roger 5880 substrate, measuring 1.575 mm in thickness, and possessing a loss tangent of 0.004. This structure is also upheld by a metal ground. The described unit cell effectively sends back incoming waves by converting 90⁰ across a wide range of frequencies. This unit cell presents an efficiency exceeding 90 % for polarization conversion in the following frequency regimes: 12.2–41.5 GHz for normal incident waves. At the same time, this design includes polarization conversion with 90 % efficiency in broadband from 12.5 GHz to 30.6 GHz for angularly polarized waves up to

30^{0}

. Behind this broadband polarization transformation lies the concept of surface current distribution and a high impedance surface. Given the broad-spectrum coverage and high-efficiency polarization conversion capabilities, our proposal holds significant potential for a wide range of applications.

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一种高效的宽带元表面设计，用于智能医疗保健和未来通信应用

我们提出了一种由新型紧凑谐振器组成的宽带超表面，以实现反射模式下的线性偏振转换。这种紧凑的谐振器设计在罗杰5880衬底上，测量厚度1.575 mm，损耗正切为0.004。这个结构也由金属地面支撑。所描述的单晶胞通过在广泛的频率范围内转换900有效地发回传入波。该单元电池在以下频率范围内的极化转换效率超过90%：正常入射波为12.2-41.5 GHz。同时，该设计包括在12.5 GHz至30.6 GHz的宽带范围内，对于角极化波高达300的极化转换，极化转换效率为90%。这种宽带极化转换的背后是表面电流分布和高阻抗表面的概念。鉴于广谱覆盖和高效极化转换能力，我们的提议具有广泛应用的巨大潜力。

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