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Reconfigurable Coding Metamaterial for Enhancing RCS Reduction

Reconfigurable coding metamaterial is created by combining coding metamaterials with traditional microwave absorbers. Using 3D-printing, two elements with a specific phase difference are assembled into a jigsaw-like metamaterial. The 3D-printed element shells and insertable bottom plate make traditi...

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Published in:	IEEE transactions on antennas and propagation 2023-11, Vol.71 (11), p.1-1
Main Authors:	Fang, Xiang, Luo, Jie, Wu, Zhuang, Zeng, Yanan, Yang, Yuntao, Qiao, Shi, Tan, Yonghong, Zou, Yanhong
Format:	Article
Language:	English
Subjects:	3D printing Absorption Coding coding metamaterials Electromagnetic scattering Encoding Frequencies Frequency ranges Magnetic materials Metamaterials Microwave absorbers Microwave technology Physics Radar cross sections RCS reduction reconfigurable Reconfiguration Reduction Scattering Stealth technology Three dimensional printing
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container_title	IEEE transactions on antennas and propagation
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creator	Fang, Xiang Luo, Jie Wu, Zhuang Zeng, Yanan Yang, Yuntao Qiao, Shi Tan, Yonghong Zou, Yanhong
description	Reconfigurable coding metamaterial is created by combining coding metamaterials with traditional microwave absorbers. Using 3D-printing, two elements with a specific phase difference are assembled into a jigsaw-like metamaterial. The 3D-printed element shells and insertable bottom plate make traditional microwave absorbers reconfigurable, while incorporating elements with certain phase differences imbues them with the scattering characteristics of coding metamaterials. This combination of coding characteristics and reconfigurability allows for flexible regulation of absorption and scattering in different frequency ranges. By adjusting the ratio of the two elements, scattering and absorption in different frequency bands can be optimized for radar cross-section (RCS) reduction. When the ratio of element 1 to the total number of elements is 0.625, the reconfigurable coding metamaterial demonstrates RCS reduction below -10 dB throughout the 5.3-18 GHz frequency range. Our work provides a promising and extensible direction for developing radar stealth technology.
doi_str_mv	10.1109/TAP.2023.3294752
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Using 3D-printing, two elements with a specific phase difference are assembled into a jigsaw-like metamaterial. The 3D-printed element shells and insertable bottom plate make traditional microwave absorbers reconfigurable, while incorporating elements with certain phase differences imbues them with the scattering characteristics of coding metamaterials. This combination of coding characteristics and reconfigurability allows for flexible regulation of absorption and scattering in different frequency ranges. By adjusting the ratio of the two elements, scattering and absorption in different frequency bands can be optimized for radar cross-section (RCS) reduction. When the ratio of element 1 to the total number of elements is 0.625, the reconfigurable coding metamaterial demonstrates RCS reduction below -10 dB throughout the 5.3-18 GHz frequency range. 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subjects	3D printing Absorption Coding coding metamaterials Electromagnetic scattering Encoding Frequencies Frequency ranges Magnetic materials Metamaterials Microwave absorbers Microwave technology Physics Radar cross sections RCS reduction reconfigurable Reconfiguration Reduction Scattering Stealth technology Three dimensional printing
title	Reconfigurable Coding Metamaterial for Enhancing RCS Reduction
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