Optical chirality of all dielectric q‐BIC metasurface with symmetry breaking

手性(物理) 圆二色性 电介质 旋光 等离子体子 超材料 圆极化 光学 物理 材料科学 光电子学 对称性破坏 手征对称破缺 结晶学 化学 量子力学 Nambu–Jona Lasinio模型 微带线
作者
Yujia Sun,Chongjun He,Zi‐Lan Deng,Xin Li,Xiaozhi Li,Zhongyuan Zhang,Xiubao Sui,Ning Li,Weiji He,Fangzhou Chen
出处
期刊:Nanophotonics [De Gruyter]
卷期号:14 (5): 559-569 被引量:24
标识
DOI:10.1515/nanoph-2024-0666
摘要

As a two-dimensional material at the nanoscale, optical metasurfaces have excellent and flexible optical field control methods. In particular, the application of the concept of bound states in the continuum (BIC) enables optical metasurfaces to achieve resonance effects with high quality factors (Q factor). In comparison to plasmonic metasurfaces, all dielectric metasurfaces can effectively reduce the Ohmic losses in the structure. In this study, we propose a q-BIC metasurface with a high quality factor (maximum Q factor of 247), which is all dielectric and symmetry-breaking, and investigate the enhancement effect of this structure on optical chirality in the near-infrared band. In the simulation and experiment, the transmission spectra of the structure in the near-infrared band exhibited differences at different light source incidence angles when illuminated with circularly polarised light of varying rotation directions (external chirality). The maximum far-field circular dichroism (CD) achieved was 0.17 in the simulation and 0.038 in the experiment. Subsequently, the near-field chirality enhancement of the structure was investigated, which has the potential to increase the optical chirality of the incident light by up to 22 times. Furthermore, the introduction of a chiral medium to a non-chiral metasurface results in a chiral transfer effect, enabling the achievement of circular dichroism beyond the intrinsic capabilities of the individual substances involved (maximum CD = 0.0055). The high-Q factor of the all-dielectric metasurface paves the way for a plenty of potential applications in optical chiral fields, including chiral sensing, ultra-sensitive analysis of biomaterials and soft matter.
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