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Tunable Dual-Broadband Terahertz Absorber with Vanadium Dioxide Metamaterial. 2022

Hengli Feng, and Zuoxin Zhang, and Jingyu Zhang, and Dongchao Fang, and Jincheng Wang, and Chang Liu, and Tong Wu, and Guan Wang, and Lehui Wang, and Lingling Ran, and Yang Gao
School of Electronic Engineering, Heilongjiang University, Harbin 150080, China.

A dual broadband terahertz bifunction absorber that can be actively tuned is proposed. The optical properties of the absorber were simulated and numerically calculated using the finite-difference time-domain (FDTD) method. The results show that when the conductivity of vanadium dioxide is less than σ0=8.5×103 S/m, the absorptance can be continuously adjusted between 2% and 100%. At vanadium dioxide conductivity greater than σ0=8.5×103 S/m, the absorption bandwidth of the absorber can be switched from 3.4 THz and 3.06 THz to 2.83 THz and none, respectively, and the absorptance remains above 90%. This achieves perfect modulation of the absorptance and absorption bandwidth. The physical mechanism of dual-broadband absorptions and perfect absorption is elucidated by impedance matching theory and electric field distribution. In addition, it also has the advantage of being polarization insensitive and maintaining stable absorption at wide angles of oblique incidence. The absorber may have applications in emerging fields such as modulators, stealth and light-guided optical switches.

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