Chiral photothermoelectric effect driven by high-Q quasi-bound states in the continuum

Journal of Optics Pub Date : 2024-04-12 DOI:10.1088/2040-8986/ad3e0f

Yiqing Hu, Guofeng Yang, Tian Sang, Ben-Xin Wang, Yueke Wang

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Abstract

Bound states in continuum (BIC) have been proposed as a means to efficiently improve the light-matter interaction of metasurface. While breaking the mirror symmetry of structure and developing BIC into a reachable and observable quasi-BIC, it is usually accompanied by the chiral phenomenon with high quality (Q) factor. Here, we report a spin-sensitive photodetector in infrared (NIR) region, which is composed of a silicon metasurface with chiral quasi-BIC, a silver layer, and a thermoelectric layer. A chiral quasi- BIC supported by a silicon metsurface can be realized under normal incidence. Based on Finite element method (FEM) simulation, a silicon metsurface with a silver layer shows a high Q-factor of 958.6 with a giant absorption circular dichroism (CD) of 0.83. Subsequently, we study the thermal performance of the chiral absorbers by using Heat Transfer module of Comsol. Combining with the thermoelectric material bismuth telluride, we calculate the differential photothermoelectric effects of the system under circular-polarized light (CPL) irradiation. When the incident flux is 100 W/cm2, the output voltage under RCP (LCP) light reaches 0.59 mV (0.08 mV), which can be used for polarization detecting. Therefore, our designed structure incorporating thermoelectricity broadens the applications of chiral BIC in sensors and detectors.

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连续体中高 Q 值准束缚态驱动的手性光热电效应

连续体中的束缚态（BIC）被认为是有效改善元表面光-物质相互作用的一种手段。在打破结构的镜像对称性并将 BIC 发展成可达到和可观测的准 BIC 的同时，通常会伴随着高品质因数（Q）的手性现象。在此，我们报告了一种红外（NIR）区自旋敏感光电探测器，它由具有手性准 BIC 的硅元表面、银层和热电层组成。硅元表面支持的手性准 BIC 可在正常入射条件下实现。基于有限元法（FEM）模拟，带有银层的硅元表面显示出 958.6 的高 Q 值因子和 0.83 的巨吸收圆二色性（CD）。随后，我们利用 Comsol 的传热模块研究了手性吸收器的热性能。结合热电材料碲化铋，我们计算了系统在圆偏振光（CPL）照射下的差分光热电效应。当入射通量为 100 W/cm2 时，圆偏振光（LCP）下的输出电压达到 0.59 mV (0.08 mV)，可用于偏振检测。因此，我们设计的热电结构拓宽了手性 BIC 在传感器和检测器中的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Optics

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