Multifunctional terahertz metamaterials device based on a dual-tunable structure incorporating graphene and vanadium oxide
Wenchao Zhao, Xiaowei Lv, Qianqian Xu, Zhengji Wen, Yuchuan Shao, Changlong Liu, Ning Dai
Abstract
is in its insulating state, the THz device displays perfect absorption peaks at 2.8 and 8.41 THz. In the broadband mode, the absorption band can be broadened to an ultra-broadband range by adjusting the Fermi level of graphene. Furthermore, the structural parameters of terahertz devices, as well as the incident and polarization angles of electromagnetic waves, were investigated. The results demonstrated that the terahertz devices exhibit a certain degree of manufacturing tolerance, stability against variations in incident angles, and favorable polarization insensitivity. Overall, this design holds promising application prospects in fields such as terahertz absorption, refractive index sensing, and terahertz detection.