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Deterministic Approach to Achieve Full-Polarization Cloak

Achieving full-polarization (σ) invisibility on an arbitrary three-dimensional (3D) platform is a long-held knotty issue yet extremely promising in real-world stealth applications. However, state-of-the-art invisibility cloaks typically work under a specific polarization because the anisotropy and o...

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Autores principales: Xu, He-Xiu, Wang, Yanzhao, Wang, Chaohui, Wang, Mingzhao, Wang, Shaojie, Ding, Fei, Huang, Yongjun, Zhang, Xiaokuan, Liu, Haiwen, Ling, Xiaohui, Huang, Wei
Formato: Online Artículo Texto
Lenguaje:English
Publicado: AAAS 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7945686/
https://www.ncbi.nlm.nih.gov/pubmed/33748763
http://dx.doi.org/10.34133/2021/6382172
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author Xu, He-Xiu
Wang, Yanzhao
Wang, Chaohui
Wang, Mingzhao
Wang, Shaojie
Ding, Fei
Huang, Yongjun
Zhang, Xiaokuan
Liu, Haiwen
Ling, Xiaohui
Huang, Wei
author_facet Xu, He-Xiu
Wang, Yanzhao
Wang, Chaohui
Wang, Mingzhao
Wang, Shaojie
Ding, Fei
Huang, Yongjun
Zhang, Xiaokuan
Liu, Haiwen
Ling, Xiaohui
Huang, Wei
author_sort Xu, He-Xiu
collection PubMed
description Achieving full-polarization (σ) invisibility on an arbitrary three-dimensional (3D) platform is a long-held knotty issue yet extremely promising in real-world stealth applications. However, state-of-the-art invisibility cloaks typically work under a specific polarization because the anisotropy and orientation-selective resonant nature of artificial materials made the σ-immune operation elusive and terribly challenging. Here, we report a deterministic approach to engineer a metasurface skin cloak working under an arbitrary polarization state by theoretically synergizing two cloaking phase patterns required, respectively, at spin-up (σ+) and spin-down (σ−) states. Therein, the wavefront of any light impinging on the cloak can be well preserved since it is a superposition of σ+ and σ− wave. To demonstrate the effectiveness and applicability, several proof-of-concept metasurface cloaks are designed to wrap over a 3D triangle platform at microwave frequency. Results show that our cloaks are essentially capable of restoring the amplitude and phase of reflected beams as if light was incident on a flat mirror or an arbitrarily predesigned shape under full polarization states with a desirable bandwidth of ~17.9%, conceiving or deceiving an arbitrary object placed inside. Our approach, deterministic and robust in terms of accurate theoretical design, reconciles the milestone dilemma in stealth discipline and opens up an avenue for the extreme capability of ultrathin 3D cloaking of an arbitrary shape, paving up the road for real-world applications.
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spelling pubmed-79456862021-03-19 Deterministic Approach to Achieve Full-Polarization Cloak Xu, He-Xiu Wang, Yanzhao Wang, Chaohui Wang, Mingzhao Wang, Shaojie Ding, Fei Huang, Yongjun Zhang, Xiaokuan Liu, Haiwen Ling, Xiaohui Huang, Wei Research (Wash D C) Research Article Achieving full-polarization (σ) invisibility on an arbitrary three-dimensional (3D) platform is a long-held knotty issue yet extremely promising in real-world stealth applications. However, state-of-the-art invisibility cloaks typically work under a specific polarization because the anisotropy and orientation-selective resonant nature of artificial materials made the σ-immune operation elusive and terribly challenging. Here, we report a deterministic approach to engineer a metasurface skin cloak working under an arbitrary polarization state by theoretically synergizing two cloaking phase patterns required, respectively, at spin-up (σ+) and spin-down (σ−) states. Therein, the wavefront of any light impinging on the cloak can be well preserved since it is a superposition of σ+ and σ− wave. To demonstrate the effectiveness and applicability, several proof-of-concept metasurface cloaks are designed to wrap over a 3D triangle platform at microwave frequency. Results show that our cloaks are essentially capable of restoring the amplitude and phase of reflected beams as if light was incident on a flat mirror or an arbitrarily predesigned shape under full polarization states with a desirable bandwidth of ~17.9%, conceiving or deceiving an arbitrary object placed inside. Our approach, deterministic and robust in terms of accurate theoretical design, reconciles the milestone dilemma in stealth discipline and opens up an avenue for the extreme capability of ultrathin 3D cloaking of an arbitrary shape, paving up the road for real-world applications. AAAS 2021-03-01 /pmc/articles/PMC7945686/ /pubmed/33748763 http://dx.doi.org/10.34133/2021/6382172 Text en Copyright © 2021 He-Xiu Xu et al. https://creativecommons.org/licenses/by/4.0/ Exclusive Licensee Science and Technology Review Publishing House. Distributed under a Creative Commons Attribution License (CC BY 4.0).
spellingShingle Research Article
Xu, He-Xiu
Wang, Yanzhao
Wang, Chaohui
Wang, Mingzhao
Wang, Shaojie
Ding, Fei
Huang, Yongjun
Zhang, Xiaokuan
Liu, Haiwen
Ling, Xiaohui
Huang, Wei
Deterministic Approach to Achieve Full-Polarization Cloak
title Deterministic Approach to Achieve Full-Polarization Cloak
title_full Deterministic Approach to Achieve Full-Polarization Cloak
title_fullStr Deterministic Approach to Achieve Full-Polarization Cloak
title_full_unstemmed Deterministic Approach to Achieve Full-Polarization Cloak
title_short Deterministic Approach to Achieve Full-Polarization Cloak
title_sort deterministic approach to achieve full-polarization cloak
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7945686/
https://www.ncbi.nlm.nih.gov/pubmed/33748763
http://dx.doi.org/10.34133/2021/6382172
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