实现从可见光到中红外超宽带探测器的卤化物金属表面

arXiv - PHYS - Optics Pub Date : 2024-09-07 DOI:arxiv-2409.04763

Shutao Zhang, Shu An, Mingjin Dai, Qing Yang Steve Wu, Nur Qalishah Adanan, Jun Zhang, Yan Liu, Henry Yit Loong Lee, Nancy Lai Mun Wong, Ady Suwardi, Jun Ding, Robert Edward Simpson, Qi Jie Wang, Joel K. W. Yang, Zhaogang Dong

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引用次数: 0

摘要

热电材料的设计可支持多个光谱范围的光学共振，从而实现超宽带光电探测。例如，碲化镉锑（Sb2Te3）在可见光范围内表现出带间等离子共振，在中红外（mid-IR）范围内表现出米氏共振，同时还具有较大的热电塞贝克系数。在本文中，我们设计并制造了 Sb2Te3 元表面器件，以实现共振吸收，从而使光电探测器能够在从可见光到中红外的超宽带光谱范围内工作。此外，依靠非对称 Sb2Te3 元表面，我们展示了具有偏振选择性的热电光电探测器。这项工作为室温下的便携式超宽带光谱仪提供了一个潜在的平台，可用于环境传感应用。

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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Chalcogenide Metasurfaces Enabling Ultra-Wideband Detectors from Visible to Mid-infrared

Thermoelectric materials can be designed to support optical resonances across multiple spectral ranges to enable ultra-wide band photodetection. For instance, antimony telluride (Sb2Te3) chalcogenide exhibits interband plasmonic resonances in the visible range and Mie resonances in the mid-infrared (mid-IR) range, while simultaneously possessing large thermoelectric Seebeck coefficients. In this paper, we designed and fabricated Sb2Te3 metasurface devices to achieve resonant absorption for enabling photodetectors operating across an ultra-wideband spectrum, from visible to mid-IR. Furthermore, relying on asymmetric Sb2Te3 metasurface, we demonstrated the thermoelectric photodetectors with polarization-selectivity. This work provides a potential platform towards the portable ultrawide band spectrometers at room temperature, for environmental sensing applications.

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arXiv - PHYS - Optics

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