Genetically engineered multiband high-impedance frequency selective surfaces

Douglas J. Kern; Douglas H. Werner; Michael J. Wilhelm; Kenneth H. Church

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Genetically engineered multiband high-impedance frequency selective surfaces

机译：基因工程多频带高阻抗频率选择表面

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A methodology is presented for the design synthesis of metamaterials that act as thin multifrequency artificial magnetic conductors. These structures are realized by placing a frequency-selective surface above a conventional prefect electric conductor, separated by a thin dielectric layer. The frequency-selective surface design is optimized using a microgenetic algorithm to operate at multiple, narrow frequency bands. Two examples of genetically engineered multiband high-impedance frequency-selective surfaces (that is, artificial magnetic conductors) are presented and discussed.

机译：提出了一种用于超材料的设计合成的方法，该超材料充当了薄的多频人造磁导体。这些结构是通过将频率选择表面放置在传统的完美电导体上方并由薄介电层隔开来实现的。使用微遗传算法对频率选择表面设计进行了优化，以在多个窄频带上运行。介绍并讨论了基因工程多频带高阻抗频率选择表面（即人造磁导体）的两个示例。

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来源
《Microwave and optical technology letters》 |2003年第5期|共4页
作者
Douglas J. Kern; Douglas H. Werner; Michael J. Wilhelm; Kenneth H. Church;
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正文语种 eng
中图分类光学;
关键词
Artifical magnetic conductor; Electromagnetic bandgap materials; Frequency-selective surface; Genetic algorithm; High-impedance surface; Metamaterials;

机译：人造导体;电磁带隙材料;频率选择表面;遗传算法;高阻抗表面;超材料;

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1. 一种基于2.5D频率选择表面和磁材料的宽间隔双频带超材料吸波器 [J] . 邓君昱, 刘少斌, 李威, 南京航空航天大学学报（英文版） . 2021,第005期
2. Genetically engineered multiband high-impedance frequency selective surfaces [J] . Douglas J. Kern, Douglas H. Werner, Michael J. Wilhelm, Microwave and optical technology letters . 2003,第5期

机译：基因工程多频带高阻抗频率选择表面
3. Multiband single-layer frequency selective surface designed by combination of genetic algorithm and geometry-refinement technique [J] . Ohira M., Deguchi H., Tsuji M., IEEE Transactions on Antennas and Propagation . 2004,第11期

机译：遗传算法与几何优化技术相结合设计的多频带单层选频表面
4. Perturbed frequency selective surfaces for multiband high impedance surfaces [J] . Goussetis G., Feresidis A.P. Microwaves, Antennas & Propagation, IET . 2010,第8期

机译：多频带高阻抗表面的扰动频率选择表面
5. Genetically Designed Multiband Metallodielectric Frequency Selective Surface Filters for the Mid-Infrared [C] . Jeremy A. Bossard, Yan Tang, Douglas H. Werner, IEEE Antennas and Propagation Society International Symposium . 2007

机译：基因设计的多频带金属频率选择性表面过滤器用于中红外线
6. The synthesis of planar negative-index-of-refraction metamaterials from frequency selective surfaces using genetic algorithms [D] . Gingrich, Mark A. 2005

机译：使用遗传算法从频率选择性表面合成平面负折射率超材料
7. HIGH FREQUENCY ULTRASONIC IMAGING OF GROWTH AND DEVELOPMENT IN MANUFACTURED ENGINEERED ORAL MUCOSAL TISSUE SURFACES [O] . Frank Winterroth, Hiroko Kato, Shiuhyang Kuo, -1

机译：人工制造的口腔粘膜组织表面的生长及其发育的高频超声成像
8. MULTI-OBJECTIVE GENETIC ALGORITHM OPTIMIZATION OF FREQUENCY SELECTIVE METASURFACES TO ENGINEER KU-PASSBAND FILTER RESPONSES [O] . Kenneth W. Allen, Daniel J. P. Dykes, David R. Reid, 2020

机译：多目标遗传算法优化频率选择性元措施对工程师Ku-Passband滤波器的响应
9. Multiband Infrared Frequency Selective Surfaces [R] . Drupp, R. , Bossard, J. , Werner, D. H. , 2003

机译：多频带红外频率选择表面

Genetically engineered multiband high-impedance frequency selective surfaces

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