Side-Coupled High-Power and High-Speed Ge-on-Si Photodetectors using Lateral Subwavelength Grating Waveguides

IF 6.7 1区物理与天体物理 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Photonics Pub Date : 2025-10-16 DOI:10.1021/acsphotonics.5c01501

Xiaoyang Zhao, Zhipeng Ma, Shiao Zhao, Hang Liang, Guobiao Tang, Yu Zhang, Jian Wang

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Abstract

High-saturation power Ge-on-Si photodetectors are widely used in analog photonics and microwave photonics, serving as key components to convert optical signals to electrical signals. However, the saturation power of the conventional butt-coupled photodiode is typically constrained by the space-charge effect. Here, two side-coupled Ge-on-Si photodetectors assisted by subwavelength grating (SWG) waveguides are proposed and realized. The present photodetectors adopt the side-coupled method, and the SWG waveguides are optimized to eliminate the space-charge effect with high optical power. One of the side-coupled photodetectors, which has a single SWG input waveguide, demonstrated a saturation current of 53.4 mA. The other has two SWG waveguides with bidirectional optical feed and has a saturation current of 41.1 mA. The device exhibits a bandwidth of 53.4 GHz under 5 mA output current. Under a photocurrent of 1 mA, the high-speed open eye diagram for 112 Gbps nonreturn-zero (NRZ) data transmission is demonstrated. And under the photocurrents of 13 and 20 mA, the open eye diagrams for the 56 and 28 Gbps NRZ data transmission are demonstrated, respectively. The present side-coupled Ge-on-Si photodetector shows excellent performance for high power detection compared with the conventional butt-coupled one.

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侧向亚波长光栅波导侧耦合高功率高速锗硅光电探测器

高饱和功率锗硅光电探测器广泛应用于模拟光子学和微波光子学，是实现光信号向电信号转换的关键器件。然而，传统的对接耦合光电二极管的饱和功率通常受到空间电荷效应的限制。本文提出并实现了在亚波长光栅（SWG）波导辅助下的两个侧面耦合锗硅光电探测器。现有光电探测器采用侧耦合方式，并对SWG波导进行了优化，以消除高光功率下的空间电荷效应。其中一个侧耦合光电探测器具有单个SWG输入波导，其饱和电流为53.4 mA。另一种具有两个SWG波导，具有双向光馈源，饱和电流为41.1 mA。该器件在5ma输出电流下的带宽为53.4 GHz。在1 mA的光电流下，展示了112 Gbps无归零（NRZ）数据传输的高速睁眼图。在13 mA和20 mA的光电流下，分别给出了56 Gbps和28 Gbps NRZ数据传输的裸眼图。与传统的对接耦合光电探测器相比，所设计的侧耦合锗硅光电探测器具有优异的高功率检测性能。

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来源期刊

ACS Photonics NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

11.90

自引率

5.70%

发文量

438

审稿时长

2.3 months

期刊介绍： Published as soon as accepted and summarized in monthly issues, ACS Photonics will publish Research Articles, Letters, Perspectives, and Reviews, to encompass the full scope of published research in this field.