Jiayong Yang, Cizhe Fang, Tongzhou Li, Yibo Wang, Xiaoxi Li, Xiangyu Zeng, Yan Liu, Yue Hao, Genquan Han
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引用次数: 0
Abstract
Gallium oxide (Ga2O3) photodetectors have drawn increased interest for their widespread applications ranging from military to civil. Due to the inherent oxygen vacancy defects, they seriously suffer from trade-offs that make them incompetent for high-responsivity, quick-response detection. Herein, a Ga2O3 nanocavity photodetector assisted with grating electrodes is designed to break the constraint. The proposed structure supports both the plasmonic mode and the Fabry-Perot (F-P) mode. Numerical calculations show that the absorption of 99.8% is realized for ultra-thin Ga2O3 (30 nm), corresponding to a responsivity of 12.35 A/W. Benefiting from optical mechanisms, the external quantum efficiency (EQE) reaches 6040%, which is 466 times higher than that of bare Ga2O3 film. Furthermore, the proposed photodetector achieves a polarization-dependent dichroism ratio of 9.1, enabling polarization photodetection. The grating electrodes also effectively reduce the transit time of the photo-generated carriers. Our work provides a sophisticated platform for developing high-performance Ga2O3 photodetectors with the advantages of simplified fabrication processes and multidimensional detection.
氧化镓(G a 2 O 3)光电探测器因其从军用到民用的广泛应用而日益受到关注。由于其固有的氧空位缺陷,它们在高响应、快响应检测方面存在严重的缺陷。在此,我们设计了一种由光栅电极辅助的 G a 2 O 3 纳米空腔光电探测器来打破这一限制。所提出的结构同时支持质子模式和法布里-珀罗(F-P)模式。数值计算表明,超薄 G a 2 O 3(30 纳米)的吸收率可达 99.8%,响应率为 12.35 A/W。受益于光学机制,外部量子效率(EQE)达到 6040%,是裸 G a 2 O 3 薄膜的 466 倍。此外,所提出的光电探测器还实现了 9.1 的偏振相关二色性比,从而实现了偏振光电探测。光栅电极还能有效缩短光生载流子的传输时间。我们的工作为开发高性能 G a 2 O 3 光电探测器提供了一个先进的平台,它具有简化制造工艺和多维检测的优点。
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