带 H 等离子处理栅极凹槽的增强模式 GaN pFET 研究

IF 4.8 4区物理与天体物理 Q2 PHYSICS, CONDENSED MATTER Journal of Semiconductors Pub Date : 2023-11-01 DOI:10.1088/1674-4926/44/11/112801

Xiaotian Gao, Guohao Yu, Jiaan Zhou, Zheming Wang, Yu Li, Jijun Zhang, Xiaoyan Liang, Zhongming Zeng, Baoshun Zhang

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引用次数: 0

摘要

这封信展示了在标准 p-GaN/AlGaN/GaN-on-Si 功率 HEMT 衬底上成功制造出的增强型（E-mode）埋入式 p 沟道 GaN 场效应晶体管。该晶体管的阈值电压 (VTH) 为 -3.8 V，最大导通电流 (ION) 为 1.12 mA/mm，ION/IOFF 比为 107，令人印象深刻。为了取得这些骄人成绩，我们对栅极 p-GaN 区域进行了 H 等离子体处理，使相对较厚的 GaN 层（即 70 nm）保持完好，而不会出现栅极凹陷。通过这种处理，氮化镓层的顶部被转换为无孔，只留下底部的 p 型，并在空间上与蚀刻的氮化镓表面和栅氧化物/氮化镓界面分离。这种方法既能实现 E 模式工作，又能保持高质量的 p 沟道特性。

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Study of enhancement-mode GaN pFET with H plasma treated gate recess

This letter showcases the successful fabrication of an enhancement-mode (E-mode) buried p-channel GaN field-effect-transistor on a standard p-GaN/AlGaN/GaN-on-Si power HEMT substrate. The transistor exhibits a threshold voltage (V _TH) of −3.8 V, a maximum ON-state current (I _ON) of 1.12 mA/mm, and an impressive I _ON/I _OFF ratio of 10⁷. To achieve these remarkable results, an H plasma treatment was strategically applied to the gated p-GaN region, where a relatively thick GaN layer (i.e., 70 nm) was kept intact without aggressive gate recess. Through this treatment, the top portion of the GaN layer was converted to be hole-free, leaving only the bottom portion p-type and spatially separated from the etched GaN surface and gate-oxide/GaN interface. This approach allows for E-mode operation while retaining high-quality p-channel characteristics.

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