Screen-Printed Metamaterial Absorber Using Fractal Metal Mesh for Optical Transparency and Flexibility

IF 3.6 2区数学 Q1 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS Fractal and Fractional Pub Date : 2024-05-09 DOI:10.3390/fractalfract8050284

Jinwoo Choi, Daecheon Lim, Sungjoon Lim

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Abstract

In stealth applications, there is a growing emphasis on the development of radar-absorbing structures that are efficient, flexible, and optically transparent. This study proposes a screen-printed metamaterial absorber (MMA) on polyethylene terephthalate (PET) substrates using indium tin oxide (ITO) as the grounding layer, which achieves both optical transparency and flexibility. These materials and methods enhance the overall flexibility and transparency of MMA. To address the limited transparency caused by the silver nanoparticle ink for the top pattern, a metal mesh was incorporated to reduce the area ratio of the printed patterns, thereby enhancing transparency. By incrementing the fractal order of the structure, we optimized the operating frequency to target the X-band, which is most commonly used in radar detection. The proposed MMA demonstrates remarkable performance, with a measured absorption of 91.99% at 8.85 GHz and an average optical transmittance of 46.70% across the visible light spectrum (450 to 700 nm), indicating its potential for applications in transparent windows or drone stealth.

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利用分形金属网丝网印刷超材料吸收器实现光学透明性和灵活性

在隐形应用中，人们越来越重视开发高效、灵活和光学透明的雷达吸收结构。本研究提出了一种在聚对苯二甲酸乙二醇酯（PET）基底上丝网印刷的超材料吸收器（MMA），使用氧化铟锡（ITO）作为接地层，实现了光学透明性和灵活性。这些材料和方法提高了 MMA 的整体柔韧性和透明度。为了解决银纳米粒子油墨对顶部图案造成的透明度限制，我们加入了金属网，以降低印刷图案的面积比，从而提高透明度。通过增加结构的分形阶数，我们优化了工作频率，将目标锁定在最常用于雷达探测的 X 波段。所提出的 MMA 性能卓越，在 8.85 GHz 频率下的测量吸收率为 91.99%，在可见光光谱（450 至 700 nm）范围内的平均透光率为 46.70%，这表明它具有应用于透明窗户或无人机隐形的潜力。

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来源期刊

Fractal and Fractional MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

CiteScore

4.60

自引率

18.50%

发文量

632

审稿时长

11 weeks

期刊介绍： Fractal and Fractional is an international, scientific, peer-reviewed, open access journal that focuses on the study of fractals and fractional calculus, as well as their applications across various fields of science and engineering. It is published monthly online by MDPI and offers a cutting-edge platform for research papers, reviews, and short notes in this specialized area. The journal, identified by ISSN 2504-3110, encourages scientists to submit their experimental and theoretical findings in great detail, with no limits on the length of manuscripts to ensure reproducibility. A key objective is to facilitate the publication of detailed research, including experimental procedures and calculations. "Fractal and Fractional" also stands out for its unique offerings: it warmly welcomes manuscripts related to research proposals and innovative ideas, and allows for the deposition of electronic files containing detailed calculations and experimental protocols as supplementary material.