Chiral Meta‐Coder for Spin Switchable Electromagnetic Camouflage and Information Authentication

Author:

Li Zhenfei12ORCID,Zhang Zhengping3,Wu Xiangming2,Song Kun1ORCID,Zhai Shilong1,Liu Yahong1,Lou Jing4ORCID,Wang Xiong3,Zhao Xiaopeng1,Zhu Weiren2ORCID

Affiliation:

1. MOE Key Laboratory of Materials Physics and Chemistry under Extraordinary Conditions, and Shaanxi Basic Discipline (Liquid Physics) Research Center School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 China

2. Department of Electronic Engineering Shanghai Jiao Tong University Shanghai 200240 China

3. School of Information Science and Technology ShanghaiTech University Shanghai 201210 China

4. Innovation Laboratory of Terahertz Biophysics National Innovation Institute of Defense Technology Beijing 100071 China

Abstract

AbstractElectromagnetic camouflage is crucial for concealing the physical identity of the object from external electromagnetic detection, whether in military operations or civilian contexts. However, addressing the pressing issue of seamlessly transitioning between camouflage and visualization capabilities is a significant challenge. By combining chiral meta‐atoms and irregular phase encoding method, a novel chiral meta‐coder is proposed for spin switchable electromagnetic camouflage and target authentication. Different from traditional conformal strategies, this meta‐coder achieves camouflage functionality by tightly arranging meta‐atoms around the target object and encoding suitable phase sequences to shape desired wavefront. Simultaneously, the target object can also be identified by modulating the helical state of the incident wave. As a proof of concept, a chiral meta‐coder operating in camouflaging “A” shaped target object is designed and experimentally demonstrated. When exposed to right circularly polarized waves, the meta‐atoms surrounding the object can adapt the wavefront to conceal target information. The camouflaged pattern exhibits diffuse scattering in the far field and three focal patterns around the near field. Conversely, these meta‐atoms transition into a wave‐absorbing configuration, facilitating the precise identification of target information. Such a strategy may find potential applications in data security, privacy, and communication.

Funder

National Natural Science Foundation of China

Fundamental Research Funds for the Central Universities

Publisher

Wiley

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