標題: High Performance Complementary Ge Peaking FinFETs by Room Temperature Neutral Beam Oxidation for Sub-7 nm Technology Node Applications
作者: Lee, Y. -J.
Hong, T. -C.
Hsueh, F. -K.
Sung, P. J.
Chen, C. -Y.
Chuang, S. -S.
Cho, T. -C.
Noda, S.
Tsou, Y. -C.
Kao, K. -H.
Wu, C. -T.
Yu, T. -Y.
Jian, Y. -L.
Su, C. -J.
Huang, Y. -M.
Huang, W. -H.
Chen, B. -Y.
Chen, M. -C.
Huang, K. -P.
Li, J. -Y.
Chen, M. -J.
Li, Y.
Samukawa, S.
Wu, W. -F.
Huang, G. -W.
Shieh, J. -M.
Tseng, T. -Y.
Chao, T. -S.
Wang, Y. -H.
Yeh, W. -K.
電子物理學系
電子工程學系及電子研究所
電機工程學系
Department of Electrophysics
Department of Electronics Engineering and Institute of Electronics
Department of Electrical and Computer Engineering
公開日期: 1-一月-2016
摘要: Ge peaking n- and p-FinFETs have been demonstrated by adopting neutral beam etching (NBE) and anisotropic neutral beam oxidation (NBO) processes. The irradiation-free NB processes not only suppress surface roughness but also guarantee low defect generation on the etched Ge surface. The fabricated Ge peaking FinFETs possess several unique features: (1) A peaking fin configuration with a 6-nm top-gate formed by an anisotropic NBO process at room temperature. (2) Nearly defect-free three dimensional channel surfaces by NB processes. (3) ION and Gm improvement by NB processes as compared to that by conventional inductively coupled plasma etching (ICP). (4) Recorded high I-ON/I-OFF ratio and low subthreshold swing (S.S. similar to 70 mV/dec.) of Ge n-FinFETs. (5) Excellent immunity for short channel effect of Ge FinFETs.
URI: http://hdl.handle.net/11536/146473
ISSN: 2380-9248
期刊: 2016 IEEE INTERNATIONAL ELECTRON DEVICES MEETING (IEDM)
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