太赫兹辐射
光学
稳健性(进化)
光子晶体
材料科学
光子学
共振(粒子物理)
太赫兹超材料
光电子学
物理
远红外激光器
激光器
生物化学
基因
粒子物理学
化学
作者
Xin Zhang,Shuang Yang,Yachen Gao
标识
DOI:10.1016/j.optcom.2024.131163
摘要
Ultrahigh-quality (Q) terahertz (THz) resonances hold tremendous potential for applications in nonlinear optics , sensing, and other fields. However, their performance is often affected by the dispersion effects caused by wide-angle incidence and the scattering losses caused by manufacturing defects. Here, we propose a novel THz resonator based on photonic crystal (PhC) slab with C 2v symmetry and flat TE mode bands. Theoretical results indicate, symmetry-protected bound states in continuum (S–P BIC) can occur at the Γ point and four accidental BICs in the ΓX and ΓY directions. Leveraging the topological properties of BICs, by judiciously tuning the structural parameter of resonator, the S–P BIC and accidental BICs are merged at the Γ point, forming flat bands with Q values as high as 10 11 in the ΓX and ΓY directions. Consequently, based on the flat TE mode bands and high-Q flat bands, when X or Y-polarized THz waves are incident on this PhC, it exhibits a Q value as high as 10 9 . Furthermore, as the incidence angle of the THz waves increases from 0° to 20°, the relative shift and bandwidth variation of resonant transmission peak are close to 0%, which demonstrates that the resonator has extremely strong robustness. • The designed PhC slab features flat mode bands and Q factor characteristics. • This paper presents a THz resonator with high incident angle robustness. • This ultra-high-Q terahertz resonator significantly resists manufacturing defects.
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