RF performance enhancement in sub-μm scaled β-Ga2O3 tri-gate FinFETs

RF performance enhancement in sub-μm scaled β-Ga2O3 tri-gate FinFETs

In this Letter, we report on the enhanced radio frequency (RF) performance in sub-micrometer scaled β-Ga2O3 tri-gate FinFETs. With a 200-nm-thick β-Ga2O3 bulk channel and a 0.35 μm gate length, the FinFETs exhibit an improved current-gain cutoff frequency of 5.4 GHz and a maximum oscillation frequen...

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Veröffentlicht in:Applied physics letters 2022-08, Vol.121 (7)
Hauptverfasser: Yu, Xinxin, Gong, Hehe, Zhou, Jianjun, Shen, Zhenghao, Ren, Fang-fang, Chen, Dunjun, Ou, Xin, Kong, Yuechan, Li, Zhonghui, Chen, Tangsheng, Gu, Shulin, Zhang, Rong, Zheng, Youdou, Ye, Jiandong
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Aspect ratio
Gallium oxides
MOSFETs
Performance enhancement
Radio frequency
Transconductance
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Zusammenfassung:In this Letter, we report on the enhanced radio frequency (RF) performance in sub-micrometer scaled β-Ga2O3 tri-gate FinFETs. With a 200-nm-thick β-Ga2O3 bulk channel and a 0.35 μm gate length, the FinFETs exhibit an improved current-gain cutoff frequency of 5.4 GHz and a maximum oscillation frequency of 11.4 GHz, which are 20% and 58% improved with respect to the planar counterpart, respectively. The improved RF performance results from the enhanced gate control capability and the suppressed short-channel effects, as evidenced by the improved pinch-off characteristics, the improved transconductance, and the suppressed output conductance. It suggests that the tri-gate multi-fin architecture is a promising strategy to break the scaling limitation of the gate-channel aspect ratio toward high-performance β-Ga2O3 RF MOSFETs.
ISSN:0003-6951
1077-3118
DOI:10.1063/5.0098610