Ultra-wideband polarization conversion metasurface based on topology optimal design and geometry tailor

机译：基于拓扑优化设计和几何裁剪的超宽带极化转换超表面

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We presented a topology optimization method based on Genetic Algorithm (GA) combined geometry tailor scheme (GTS) to realize ultra-wideband polarization conversion metasurfaces (UPCM) in microwave range. The present method takes the connectivity condition of the elements into consideration, thereby resulting in good optimization efficiency. As examples, an UPCM is designed by topology optimization, which is composed of the dielectric substrate sandwiched with patched metallic patterns and continuous metal background. Three plasmon resonances are generated by electric and magnetic resonances, which lead to bandwidth expansion of cross-polarization reflection. The simulated results show that the maximum conversion efficiency is nearly 100% at the three plasmon resonance frequencies and the 3dB bandwidth range from 5.66 to 24.68GHz can be achieved for both normally incident x- and y-polarized waves.

机译：我们提出了一种基于遗传算法（GA）组合几何裁剪方案（GTS）的拓扑优化方法，以实现微波范围内的超宽带极化转换超表面（UPCM）。本方法考虑了元件的连通性条件，从而导致良好的优化效率。例如，通过拓扑优化来设计UPCM，它由夹有修补金属图案和连续金属背景的介电基板组成。电和磁共振产生三个等离子体共振，这导致交叉极化反射的带宽扩展。仿真结果表明，在三个等离激元共振频率下，最大转换效率接近100％，对于法向入射的x极化波和y极化波，均可实现3dB的带宽范围（从5.66到24.68 GHz）。

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《IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications》|2015年|1-3|共3页
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Sai Sui; Jibao Yu; Hua Ma; Jieqiu Zhang; Jiafu Wang; Zhuo Xu; Shaobo Qu;
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electromagnetic metamaterials; electromagnetic wave polarisation; genetic algorithms; bandwidth 5.66 GHz to 24.68 GHz; cross-polarization reflection; dielectric substrate; genetic algorithm; geometry tailor scheme; patched metallic patterns; plasmon resonances; topology optimal design; ultra-wideband polarization conversion metasurface; Metasurface; genetic algorithm (GA); geometry tailor; metamaterials (MMs); topology design;

机译：电磁超材料;电磁波极化;遗传算法;带宽5.66 GHz至24.68 GHz;交叉极化反射;介电基板;遗传算法;几何裁剪方案;修补的金属图案;等离子体共振;拓扑优化设计;超宽带极化转换超表面;元表面;遗传算法（GA）;几何裁剪;超材料（MMs）;拓扑设计;

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专利

1. Ultra-Wideband Polarization Conversion Metasurface Based on Topology Optimal Design and Geometry Tailor [J] . Sui Sai, Yu Jibao, Ma Hua, Applied Computational Electromagnetics Society journal . 2016,第7期

机译：基于拓扑优化设计和几何定制的超宽带极化转换超表面
2. Symmetry-based coding method and synthesis topology optimization design of ultra-wideband polarization conversion metasurfaces [J] . Sai Sui, Hua Ma, Jiafu Wang, Applied Physics Letters . 2016,第1期

机译：基于对称的超宽带极化转换超表面编码方法及综合拓扑优化设计
3. A design of ultra-wideband linear cross-polarization conversion metasurface with high efficiency and ultra-thin thickness [J] . Chuan Liu, Renjing Gao, Qi Wang, Journal of Applied Physics . 2020,第15期

机译：高效率和超薄厚度超宽带线性交叉极化转换元面的设计
4. Ultra-wideband polarization conversion metasurface based on topology optimal design and geometry tailor [C] . Sai Sui, Jibao Yu, Hua Ma, IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications . 2015

机译：基于拓扑优化设计和几何裁缝的超宽带偏振转换元面
5. Design of Multi-Material Lattice Structures with Tailorable Material Properties Using Density-Based Topology Optimization [D] . ?Venugopal, Vysakh 2019

机译：采用基于密度的拓扑优化设计具有可定制材料特性的多材料晶格结构的设计
6. Optimal Design of Miniaturized Reflecting Metasurfaces for Ultra-Wideband and Angularly Stable Polarization Conversion [O] . Michele Borgese, Filippo Costa, Simone Genovesi, -1

机译：超宽带和角稳定偏振转换的微型反射超表面的优化设计
7. Ultra-wideband and wide-angle polarization rotator based on double W-shaped metasurface [O] . Yinrui Zhao, Buxiong Qi, Tiaoming Niu, 2019

机译：基于双W形元表面的超宽带和广角偏振旋转器

Ultra-wideband polarization conversion metasurface based on topology optimal design and geometry tailor

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