Investigation of GaAs-Based Laser Diode Adopting an Al Composition Gradient Double Waveguide Structure and its Photoelectric Properties

ECS Journal of Solid State Science and Technology Pub Date : 2024-06-10 DOI:10.1149/2162-8777/ad561c

Pengpeng Zhao, Hailiang Dong, Zhigang Jia, Wei Jia, Zeming Chen, Jian Liang, Bingshe Xu

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Abstract

The double waveguide structure of a 1060 nm laser diode with different Al composition linear gradient was designed for achieving high output power. In contrast to the single waveguide layer with Al-free composition gradient structure, the double waveguide layer with a reverse Al composition gradient from n side to p side showed excellent optoelectronic properties. We found that the reverse Al composition gradient double waveguide layer could decrease injection potential barrier for electrons and holes, as well as has a high block leakage potential barrier, which can be help to increase carrier transport and optical confined factor. Meanwhile, it can improve sheet carrier concentration in order to decrease non-radiative recombination. When the injection current is 6 A, the maximal output power and peak wall-plug conversion efficiency are 6.12 W and 81.1%, respectively. The influencing mechanism of these photoelectric parameters on power and wall-plug conversion efficiency was discussed. The novel waveguide structure will be favorable for designing epitaxial structure and providing a theoretical basis for high-power laser diode.

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采用铝成分梯度双波导结构的砷化镓基激光二极管及其光电特性研究

为实现高输出功率，设计了具有不同铝成分线性梯度的 1060 nm 激光二极管双波导结构。与无铝成分梯度结构的单波导层相比，从 n 侧到 p 侧具有反向铝成分梯度的双波导层显示出优异的光电特性。我们发现，反向铝成分梯度双波导层可以降低电子和空穴的注入势垒，并具有较高的阻挡泄漏势垒，这有助于提高载流子传输和光学约束因子。同时，它还能提高片载流子浓度，以减少非辐射重组。当注入电流为 6 A 时，最大输出功率和峰值壁插转换效率分别为 6.12 W 和 81.1%。讨论了这些光电参数对功率和壁插转换效率的影响机制。该新型波导结构将有利于设计外延结构，并为高功率激光二极管提供理论依据。

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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ECS Journal of Solid State Science and Technology

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