Wide-range manipulation of photonic spin Hall effect via quasi-bound states in the continuum in a compound grating structure

光学 栅栏 光子学 光子晶体 航程(航空) 衍射光栅 物理 自旋霍尔效应 材料科学 光电子学 自旋极化 量子力学 电子 复合材料
作者
Chi Zhang,Zuhai Ma,Xuquan Liu,ZhiWei Zheng,Yu Chen,Xinxing Zhou
出处
期刊:Optics Express [Optica Publishing Group]
卷期号:33 (11): 23376-23376 被引量:2
标识
DOI:10.1364/oe.561746
摘要

The photonic spin Hall effect (PSHE), manifesting itself as the spin-dependent displacement of a light beam, holds potential applications in optical sensing and spin-based nanophotonic devices. Thus, achieving effective manipulation and enhancement of PSHE is highly meaningful. Previous works have indicated that the PSHE can be enhanced by considering the quasi-bound state in the continuum (q-BIC), which relies on the generation of Fano resonances with near-zero reflectivity. However, some limitations exist, such as the enhanced PSHE based on q-BIC is either constrained to a narrow range of incident angles a specific optical wavelength, or the quality factor is not considered. In light of the above issues, this work proposes a composite grating structure, which regulates the enhanced PSHE based on q-BIC within a wide incident angle range (approximately 10 degrees) and possesses a high quality factor. We find that the modulation of enhanced PSHE based on q-BIC can be achieved by adjusting the wavelength, the grating width, and the temperature variations of the Vanadium Dioxide (VO 2 ) grating. The physical mechanism is that, under the influence of surface plasmon, this structure can achieve q-BIC with near-zero reflectivity over a wide range of incident angles to enhance PSHE. Moreover, we design a PSHE refractive index sensor based on this q-BIC metasurface with a high sensitivity of Sn = 88.66 ° /RIU.

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