Author(s): Zhu, YQ (Zhu, Yeqing); Tian, X (Tian, Xi); Fang, JK (Fang, Jiukai); Shi, YP (Shi, Yanpeng); Shi, SN (Shi, Shengnan); Zhang, S (Zhang, Shan); Song, JM (Song, Jinmei); Li, MP (Li, Meiping); Liu, XY (Liu, Xiaoyu); Wang, XD (Wang, Xiaodong); Yang, FH (Yang, Fuhua)

Source: RSC ADVANCES Volume: 12 Issue: 32 Pages: 20765-20770 DOI: 10.1039/d2ra03014d Published: JUL 14 2022

Abstract: A single metamaterial (MM) is generally designed to operate in only one band, and the MMs with different dimensions of meta-atoms are required to be integrated to achieve multi-spectral responses simultaneously. In this study, an all-dielectric synthetic multi-spectral metamaterial (SMM) that can efficiently operate in the visible and terahertz (THz) ranges by incorporating nanoscale features into microscale unit cells is demonstrated and investigated numerically. The resonant frequency of the proposed SMM in both regimes can be tuned independently by changing the geometric parameters such as diameter, gap, width and height of unit cells functional in two different regions, whilst maintaining high reflectance efficiency. Results show that a variety of colors can be produced from red to purple in the visible range with maximal reflectance as high as 83% while the peak frequency of the SMM can be adjusted from 8.12 to 2.13 THz in the THz range with maximum reflectance up to 94%. The reflection characteristics of the SMM mainly originate from the electric dipole (ED) and magnetic dipole (MD) resonances via Mie scattering in both regions. The strategy of this research offers the possibility of applications in bio/chemical sensing, multi-spectral imaging, filtering, detection, modulation and so on.

Accession Number: WOS:000827633100001

eISSN: 2046-2069

Full Text: https://pubs.rsc.org/en/content/articlelanding/2022/RA/D2RA03014D