| Literature DB >> 33925768 |
Yijia Huang1, Tianxiao Xiao2, Zhengwei Xie1, Jie Zheng1, Yarong Su1, Weidong Chen1, Ke Liu1, Mingjun Tang1, Ling Li1.
Abstract
As promising building blocks for functional materials and devices, metasurfaces have gained widespread attention in recent years due to their unique electromagnetic (EM) properties, as well as subwavelength footprints. However, current designs based on discrete unit cells often suffer from low working efficiencies, narrow operation bandwidths, and fixed EM functionalities. Here, by employing the superior performance of a continuous metasurface, combined with the reconfigurable properties of a phase change material (PCM), a dual-functional meta-grating is proposed in the infrared region, which can achieve a broadband polarization conversion of over 90% when the PCM is in an amorphous state, and a perfect EM absorption larger than 91% when the PCM changes to a crystalline state. Moreover, by arranging the meta-grating to form a quasi-continuous metasurface, subsequent simulations indicated that the designed device exhibited an ultralow specular reflectivity below 10% and a tunable thermal emissivity from 14.5% to 91%. It is believed that the proposed devices with reconfigurable EM responses have great potential in the field of emissivity control and infrared camouflage.Entities:
Keywords: continuous structure; electromagnetic absorption; metasurface; phase change material; polarization conversion
Year: 2021 PMID: 33925768 DOI: 10.3390/ma14092212
Source DB: PubMed Journal: Materials (Basel) ISSN: 1996-1944 Impact factor: 3.623