BC high-/spl kappa//metal gate Ge/C alloy pMOSFETs fabricated directly on Si (100) substrates |
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Authors: | Kelly D.Q. Donnelly J.P. Dey S. Joshi S.V. Gutierrez D.I.G. Yacaman M.J. Banerjee S.K. |
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Affiliation: | Microelectron. Res. Center, Univ. of Texas, Austin, TX, USA; |
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Abstract: | Buried-channel (BC) high-/spl kappa//metal gate pMOSFETs were fabricated on Ge/sub 1-x/C/sub x/ layers for the first time. Ge/sub 1-x/C/sub x/ was grown directly on Si (100) by ultrahigh-vacuum chemical vapor deposition using methylgermane (CH/sub 3/GeH/sub 3/) and germane (GeH/sub 4/) precursors at 450/spl deg/C and 5 mtorr. High-quality films were achieved with a very low root-mean-square roughness of 3 /spl Aring/ measured by atomic force microscopy. The carbon (C) content in the Ge/sub 1-x/C/sub x/ layer was approximately 1 at.% as measured by secondary ion mass spectrometry. Ge/sub 1-x/C/sub x/ BC pMOSFETs with an effective oxide thickness of 1.9 nm and a gate length of 10 /spl mu/m exhibited high saturation drain current of 10.8 /spl mu/A//spl mu/m for a gate voltage overdrive of -1.0 V. Compared to Si control devices, the BC pMOSFETs showed 2/spl times/ enhancement in the saturation drain current and 1.6/spl times/ enhancement in the transconductance. The I/sub on//I/sub off/ ratio was greater than 5/spl times/10/sup 4/. The improved drain current represented an effective hole mobility enhancement of 1.5/spl times/ over the universal mobility curve for Si. |
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