A kirigami-based reconfigurable metasurface for selective electromagnetic transmission modulation

IF 12.3 1区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

npj Flexible Electronics Pub Date : 2024-07-31 DOI:10.1038/s41528-024-00334-y

Shuchang He, Chengjun Wang, Jie Tao, Haishan Tang, Zuojia Wang, Jizhou Song

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Abstract

Tunable three-dimensional (3D) electromagnetic metasurfaces are essential for achieving selective modulation of polarized waves, but they usually require complex designs and the use of smart materials, posing great implementation challenges. Here, we propose a novel kirigami-based reconfigurable electromagnetic metasurface, which consists of a kirigami-based deformable thin polyimide substrate and periodically arranged copper split-ring resonators. By simple stretch, the two-dimensional (2D) planar metasurface can be uniformly transformed into a 3D state, enabling it to effectively and selectively modulate linearly and circularly polarized waves. Experimental and numerical results reveal the mechanical deformation and transmission characteristics of the metasurface under applied strains. It is shown that the metasurface exhibits good selective transmission tunability while the resonant frequency remains basically unchanged for both transverse electric and transverse magnetic polarized waves. Furthermore, the selective tuning mechanism and the influence of geometrical parameters are also illustrated by the equivalent circuit analysis.

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用于选择性电磁传输调制的基于 Kirigami 的可重构元表面

可调谐三维（3D）电磁元表面对于实现极化波的选择性调制至关重要，但通常需要复杂的设计和使用智能材料，这给实现带来了巨大挑战。在这里，我们提出了一种新型的基于叽里格米的可重构电磁元表面，它由基于叽里格米的可变形聚酰亚胺薄基板和周期性排列的铜劈环谐振器组成。通过简单的拉伸，二维（2D）平面元表面可以均匀地转变为三维状态，从而使其能够有效地、有选择地调制线性和圆极化波。实验和数值结果揭示了元表面在外加应变下的机械变形和传输特性。实验结果表明，元表面具有良好的选择性透射调谐能力，而对于横向电偏振波和横向磁偏振波，其谐振频率基本保持不变。此外，还通过等效电路分析说明了选择性调谐机制和几何参数的影响。

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来源期刊

npj Flexible Electronics Multiple-

CiteScore

17.10

自引率

4.80%

发文量

审稿时长

6 weeks

期刊介绍： npj Flexible Electronics is an online-only and open access journal, which publishes high-quality papers related to flexible electronic systems, including plastic electronics and emerging materials, new device design and fabrication technologies, and applications.