不对称
超材料
太赫兹辐射
手性(物理)
圆极化
窄带
材料科学
极化(电化学)
光学
太赫兹超材料
光电子学
平面手性
耦合模理论
传输(电信)
偏振旋转器
布鲁斯特角
旋光
凝聚态物理
分子物理学
旋转对称性
物理
作者
Daoye Zheng,Yu‐Sheng Lin
出处
期刊:Small
[Wiley]
日期:2025-09-29
卷期号:21 (46): e10208-e10208
标识
DOI:10.1002/smll.202510208
摘要
Abstract In this research, a bi‐layer all‐silicon terahertz metamaterial (BATM) is proposed with maximum narrowband intrinsic chirality by introducing one in‐plane asymmetry parameter and one out‐of‐plane asymmetry parameter. By introducing an additional in‐plane asymmetry, the usually equal intensities of cross‐polarization components under left circular polarized (LCP) and right circular polarized (RCP) incident light will be broken, as one will be confined to ≈0.03 and another keeps higher than 0.10. Moreover, the banned cross‐polarization intensity can be further suppressed to 10 −4 level by importing another in‐plane asymmetry and optimizing out‐of‐plane asymmetry. The tailoring on asymmetry parameters also brings asymmetrical transmission properties. Besides, more quasi‐BIC chiral modes can be stimulated by breaking the translational symmetry, and the chiral intensity of all these modes can be modulated by controlling the vertical distance between the two layers. Furthermore, BATM is potential to integrate with micro‐electro‐mechanical system (MEMS) to realize actively dynamic tuning in the chiral spectra. The narrowband asymmetrical chiral transmission and polarization conversion properties enable BATM to be promising for optical isolation, polarization controlling, chiral molecule sensing, encoding, and filtering applications.
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