太赫兹辐射
手性(物理)
平面的
平面手性
材料科学
物理
超材料
太赫兹光谱与技术
光学
凝聚态物理
光电子学
极化(电化学)
对映体
圆极化
非线性光学
折射率
分裂环谐振器
分子物理学
耦合模理论
量子光学
光子学
作者
Jixin Feng,Xianghui Wang,Ming Zeng,Linyuan Fan,Liang Ma,Yunyun Ji,Fei Fan,Shengjiang Chang
摘要
Chiral quasi-bound state in the continuum (QBIC) resonances have garnered considerable interest in recent years. However, the design and application of chiral QBIC resonances are often challenged by out-of-plane symmetry breaking. Here, a strategy synergistically integrating two in-plane implementations is proposed to enhance the chirality of QBIC in purely planar metasurfaces, with an elliptic cylinder trimer (ECT) as an example. An in-plane symmetry perturbation is first introduced into the oligomer structure to generate QBIC and only a weak chirality is observed. Then, chirality enhancement is achieved by an in-plane rotation arrangement, which is experimentally verified in the terahertz band. The chirality enhancement mechanism is conjointly elucidated via coupled-mode theory and multipole decomposition analysis (MDA). A chirality-sensitive parameter is introduced into MDA to unravel the chirality generation mechanism. It is indicated that chirality enhancement in ECT originates from a pronounced disparity in electric dipole moments excited by right- and left-circularly polarized lights. Furthermore, a circular dichroism difference of approximately 10° is experimentally observed between minute amounts of L- and D-threonines, which can be attributed to tenfold optical chiral field enhancement from the ECT structure. Our findings provide, to our knowledge, a new chiral QBIC design paradigm in planar metasurfaces and provoke its applications in chiral biosensing.
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