Nearly Ideal Transparency with Artificially Designed Meta‐Atoms

The ideal electromagnetic transparency refers to the ability of an object to remain scatteringless to any incoming waves, resulting in vacuum invisibility. However, natural solid substances can hardly be transparent in free space as they are responsive to external polarizations. Completely eliminati...

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Published in:Advanced materials (Weinheim) 2024-02, Vol.36 (8), p.e2308298-n/a
Main Authors: Wang, Chun, Hu, Xiaojun, Peng, Liang, Tang, Jingxin, Ran, Lixin, Zhang, Shuang, Ye, Dexin
Format: Article
Language:English
Subjects:
ideal transparency
invisible material
Polarization
Radomes
scatteringless meta‐atom
three‐dimensional omnidirectional
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container_start_page e2308298
container_title Advanced materials (Weinheim)
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creator Wang, Chun
Hu, Xiaojun
Peng, Liang
Tang, Jingxin
Ran, Lixin
Zhang, Shuang
Ye, Dexin
description The ideal electromagnetic transparency refers to the ability of an object to remain scatteringless to any incoming waves, resulting in vacuum invisibility. However, natural solid substances can hardly be transparent in free space as they are responsive to external polarizations. Completely eliminating the polarization effect of an obstacle under arbitrary field illumination is a long‐standing scientific challenge. Here, it is shown that a subwavelength meta‐atom can be nearly ideally transparent in the vacuum. The overall vacuum‐like property of the meta‐atom is achieved through judiciously designing its internal polarization and magnetization. Remarkably, any large‐scale objects made by stacking the meta‐atoms inherit the vacuum‐like property and are scatteringless in free space. By both the simulations and experiments, the meta‐atom's peculiar property is reasonably verified. The proposed meta‐atoms are excellent candidates for a wide range of applications, such as perfect radar radomes, scatteringless walls, filtering devices, and self‐stealth materials. A true vacuum‐like meta‐atom is exhibited to work without any restrictions to the incidence. The design strategy can be widely applied in various engineering scenarios, including radar radomes, self‐concealment, through‐wall detection, electromagnetic compatibility, etc .
doi_str_mv 10.1002/adma.202308298
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subjects ideal transparency
invisible material
Polarization
Radomes
scatteringless meta‐atom
three‐dimensional omnidirectional
title Nearly Ideal Transparency with Artificially Designed Meta‐Atoms
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