INVESTIGATION OF FOLD-DEPENDENT BEHAVIOR IN AN ORIGAMI-INSPIRED FSS UNDER NORMAL INCIDENCE

IF 0.7 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Deanna Sessions, K. Fuchi, Sumana Pallampati, David Grayson, Steven R. Seiler, G. Bazzan, G. Reich, P. Buskohl, G. Huff
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引用次数: 22

Abstract

Frequency selective surfaces (FSS) filter specific electromagnetic (EM) frequencies defined by the geometry and often fixed periodic spacing of a conductive element array. By embedding the FSS pattern into an origami structure, we expand the number of physical configurations and periodicities of the FSS, allowing for fold-driven frequency tuning. The goal of this work is to examine the folddependent polarization and frequency behavior of an origami-inspired FSS under normal incidence and provide physical insight into its performance. The FSS is tessellated with the Miura-ori pattern and uses resonant length metallic dipoles with orthogonal orientations for two primary modes of polarization. A driven dipole model with geometric morphologies, representative of the folding operations, provides physical insight into the observed behavior of the FSS. Full-wave simulations and experimental results demonstrate a shift in resonant frequency and transmissivity with folding, highlighting the potential of origami structures as an underlying mechanism to achieve fold-driven EM agility in FSSs.
折纸启发FSS在正常入射下的折纸依赖行为研究
频率选择表面(FSS)过滤由导电元件阵列的几何形状和通常固定的周期间隔定义的特定电磁(EM)频率。通过将FSS图案嵌入折纸结构中,我们扩展了FSS的物理配置和周期性的数量,从而实现了折叠驱动的频率调谐。这项工作的目标是检查折纸启发的FSS在正入射下的折叠相关极化和频率行为,并对其性能提供物理见解。FSS采用Miura ori图案镶嵌,并使用具有正交取向的谐振长度金属偶极子用于两种主要偏振模式。具有几何形态的驱动偶极子模型代表了折叠操作,为观察到的FSS行为提供了物理见解。全波模拟和实验结果表明,随着折叠,谐振频率和透射率发生了变化,突显了折纸结构作为在FSS中实现折叠驱动EM灵活性的潜在机制的潜力。
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来源期刊
Progress in Electromagnetics Research M
Progress in Electromagnetics Research M Materials Science-Electronic, Optical and Magnetic Materials
CiteScore
2.50
自引率
10.00%
发文量
114
期刊介绍: Progress In Electromagnetics Research (PIER) M publishes peer-reviewed original and comprehensive articles on all aspects of electromagnetic theory and applications. Especially, PIER M publishes papers on method of electromagnetics, and other topics on electromagnetic theory. It is an open access, on-line journal in 2008, and freely accessible to all readers via the Internet. Manuscripts submitted to PIER M must not have been submitted simultaneously to other journals.
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