Mid-Infrared Optoelectronic Waveguide Devices with 2D Materials

Advanced Physics Research Pub Date : 2024-07-23 DOI:10.1002/apxr.202400079

Liqiang Qi, Tianping Xu, Zhengkun Xing, Si Chen, Zunyue Zhang, Tiegen Liu, Zhenzhou Cheng

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Abstract

Mid-infrared (Mid-IR) integrated optics has tremendous applications in spectroscopic sensing, imaging, and ranging. Compared with visible light and near-IR wavelengths, the study of mid-IR photonic integrated devices is limited due to the need for more suitable materials and designs for constructing high-performance on-chip optoelectronic devices. Integrating emerging 2D materials with novel waveguide devices opens an avenue to boost the development of high-performance optoelectronic waveguide devices operating in the mid-IR wavelength range. This review summarizes the previous progress, current status, and future trends in exploring mid-IR optoelectronic waveguide devices with 2D materials. Specifically, the authors focus on the research efforts of developing passive photonic devices, modulators, photodetectors, and light sources. Then, the challenges and prospects in this area are discussed. The paper provides a valuable reference for researchers in infrared physics, optoelectronics, integrated optics, material science, sensing, and spectroscopy.

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使用二维材料的中红外光电波导器件

中红外（Mid-IR）集成光学技术在光谱传感、成像和测距方面有着巨大的应用。与可见光和近红外波长相比，由于需要更合适的材料和设计来构建高性能片上光电器件，对中红外光子集成器件的研究十分有限。将新兴二维材料与新型波导器件相结合，为推动工作在中红外波段的高性能光电波导器件的发展开辟了一条途径。本综述总结了利用二维材料探索中红外光电波导器件的前期进展、现状和未来趋势。具体而言，作者重点介绍了开发无源光子器件、调制器、光电探测器和光源的研究工作。然后，讨论了这一领域的挑战和前景。本文为红外物理学、光电子学、集成光学、材料科学、传感和光谱学领域的研究人员提供了有价值的参考。

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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Advanced Physics Research

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