Planar Achiral Metasurfaces-Induced Anomalous Chiroptical Effect of Optical Spin Isolation

圆极化 圆二色性 光隔离器 材料科学 平面的 光学 相位板 极化(电化学) 光电子学 二色性 双折射 物理 激光器 化学 物理化学 微带线 计算机图形学(图像) 计算机科学 结晶学
作者
Ahsan Sarwar Rana,Inki Kim,Muhammad Afnan Ansari,Muhammad Sabieh Anwar,Murtaza Saleem,Tauseef Tauqeer,Aaron J. Danner,Muhammad Zubair,Muhammad Qasim Mehmood,Junsuk Rho
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:12 (43): 48899-48909 被引量:39
标识
DOI:10.1021/acsami.0c10006
摘要

Planar chiral structures respond differently for oppositely handed incident light, and thus can produce extraordinary chiroptical effects such as circular conversion dichroism (CCD) and asymmetric transmission (AT). Such chiroptical effects are powerful tools to realize the fundamental principle of optical spin isolation, which leads to a plethora of applications such as optical conversion diodes, chiral imaging, and sensing. Here, we demonstrate the chiroptical effects of simultaneous CCD and AT through meticulously designed single-layered achiral nanofins. Our metamolecule consists of four achiral hydrogenated amorphous silicon (a-Si:H) nanofins that are carefully oriented and optimized to exhibit considerable CCD and AT. The device demonstrates a circular conversion dichroism of 55% and an asymmetric transmission of 58% at a wavelength of 633 nm. Right-hand circularly polarized light (RHCP) is completely absorbed, while left-hand circularly polarized light (LHCP) is transmitted with a polarization conversion, making it a perfect circular polarization wave isolator with negligible backscattering (due to low reflectance). This unique design and its underlying working mechanism are described comprehensively with three different techniques. These methods validate the proposed design and its methodology. For practical applications such as imaging, the proposed design realizes the Pancharatnam-Berry (PB) phase, achieving a 0-2π phase coverage for transmitted circular polarization. For the proof of concept, a metahologram is designed and demonstrated by employing the achieved full-phase control. The measured response of the fabricated metadevice not only validates the CCD and AT but also exhibits a simulated polarization conversion efficiency of up to 71% and measured efficiency up to 52%, comparable to state-of-the-art metahologram demonstrations.
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