Zhiyuan He, Liang He, Kun Jiang, Xiaoyue Duan, Yijun Shi, Xinghuan Chen, Yuan Chen, Hualong Wu, Guoguang Lu, Y. Ni
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引用次数: 0
摘要
在这项工作中,我们首次研究了 p 栅极 AlGaN/GaN 高电子迁移率晶体管 (HEMT) 在氢(H2)气氛下的降解行为和机制。实验结果表明,经氢气处理后,p栅AlGaN/GaN HEMT的漏极至源极电流明显下降、阈值电压出现负漂移、离态栅漏电流增加、亚阈值摆幅恶化。电气参数的下降被认为是氢中毒现象造成的。通过二次离子质谱法和变温光致发光光谱法,我们观察到 H2 处理后 p-GaN 层的氢浓度增加,并形成了电性不活泼的 Mg-H 复合物。其结果是,器件的有效空穴浓度降低,陷阱密度增加,霍尔效应测量和低频噪声分析分别证实了这一点。氢气对 p 栅极 AlGaN/GaN HEMT 的不利影响主要归因于掺杂镁的补偿和缺陷的产生。
Effect of Hydrogen Poisoning on p-gate AlGaN/GaN HEMTs
In this work, we investigate the degradation behavior and mechanism of p-gate AlGaN/GaN high-electron-mobility transistors (HEMTs) for the first time under hydrogen (H2) atmosphere. The experimental results reveal significant decrease in drain-to-source current, negative drift in threshold voltage, increase in off-state gate leakage current, and deterioration of subthreshold swing in the p-gate AlGaN/GaN HEMT after H2 treatment. The degradation of the electrical parameters is considered to hydrogen poisoning phenomenon. Through secondary ion mass spectrometry and variable temperature photoluminescence spectroscopy, we observe the increase in hydrogen concentration in the p-GaN layer and the formation of electrically inactive Mg-H complexes after H2 treatment. As results, the effective hole concentration decreases and the trap density of the device increases, which are confirmed by Hall effect measurement and low-frequency noise analysis, respectively. The detrimental effect of hydrogen on p-gate AlGaN/GaN HEMTs can be attributed primarily to the compensation of Mg doping and the generation of defects.
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