多目标遗传算法优化频率选择超表面以设计ku -通带滤波器响应

IF 6.7 1区计算机科学 Q1 Physics and Astronomy Progress in Electromagnetics Research-Pier Pub Date : 2020-01-01 DOI:10.2528/PIER19112609

K. Allen, D. Dykes, D. Reid, Richard Lee

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引用次数: 21

摘要

超表面提供了一种新的途径来制造电薄的多层结构，在中心波长(λc)的十分之一的数量级上，具有工程响应。改变表面上的亚波长空间特征，例如λc/80，可以获得高度可调的电磁散射特性。在这项工作中，我们开发了一种超宽带频率选择超表面(FSmS)，它完全涵盖了12-18 GHz的ku波段，具有陡峭的频带边缘。采用模拟进化过程的多目标遗传算法优化超表面的几何结构。从一层到四层不同厚度的超表面结构进行分析。对这些频率选择性超表面进行了计算电磁模拟，并进行了讨论和实验验证。在这项工作中提出的概念可以应用于设计从微波到光学体制的超表面和超材料。

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MULTI-OBJECTIVE GENETIC ALGORITHM OPTIMIZATION OF FREQUENCY SELECTIVE METASURFACES TO ENGINEER KU-PASSBAND FILTER RESPONSES

Metasurfaces enable a new avenue to create electrically thin multi-layer structures, on the order of one-tenth the central wavelength (λc), with engineered responses. Altering the subwavelength spatial features, e.g., λc/80, on the surface leads to highly tunable electromagnetic scattering characteristics. In this work, we develop an ultra-wideband frequency selective metasurface (FSmS) that completely encompasses the Ku-band from 12–18 GHz with steep band edges. The geometrical structure of the metasurfaces is optimized by a multi-objective genetic algorithm mimicking evolutionary processes. Analysis is performed from oneto four-layer metasurface structures with various thicknesses. Computational electromagnetic simulations for these frequency selective metasurfaces are presented, discussed, and experimentally validated. The concepts presented in this work can be applied to design metasurfaces and metamaterials from the microwave to the optical regimes.

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来源期刊

Progress in Electromagnetics Research-Pier 物理-电信学

CiteScore

7.20

自引率

3.00%

发文量

审稿时长

1.3 months

期刊介绍： Progress In Electromagnetics Research (PIER) publishes peer-reviewed original and comprehensive articles on all aspects of electromagnetic theory and applications. This is an open access, on-line journal PIER (E-ISSN 1559-8985). It has been first published as a monograph series on Electromagnetic Waves (ISSN 1070-4698) in 1989. It is freely available to all readers via the Internet.