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Physical mechanism determining Ge p- and n-MOSFETs mobility in high Ns region and mobility improvement by atomically flat GeOx/Ge interfaces

Hall measurements have been carried out for the Ge p-and n-MOSFETs with different substrate orientations and GeO x /Ge interface qualities. It is found that the significant reduction of effective mobility in high surface carrier concentration (N s ) or high normal field in Ge MOSFETs is attributed p...

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Main Authors:	Rui Zhang, Po-Chin Huang, Ju-Chin Lin, Takenaka, M., Takagi, S.
Format:	Conference Proceeding
Language:	eng ; jpn
Subjects:	Capacitance-voltage characteristics Hall effect MOSFET circuits MOSFETs Oxidation Plasma temperature
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creator	Rui Zhang Po-Chin Huang Ju-Chin Lin Takenaka, M. Takagi, S.
description	Hall measurements have been carried out for the Ge p-and n-MOSFETs with different substrate orientations and GeO x /Ge interface qualities. It is found that the significant reduction of effective mobility in high surface carrier concentration (N s ) or high normal field in Ge MOSFETs is attributed partly to the N s loss due to large amounts of interface states inside the valence and conduction bands of Ge. The GeO x /Ge interface roughness is another reason limiting the high N s mobility. It has been revealed that room temperature plasma post oxidation can realize Al 2 O 3 /GeO x /Ge gate stacks with atomically-flat GeO x /Ge interfaces. Ge MOSFETs with these interfaces have provided record high effective hole and electron mobility, which overcome the Si universal mobility in both low and high N s regions.
doi_str_mv	10.1109/IEDM.2012.6479051
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identifier	ISSN: 0163-1918
ispartof	2012 International Electron Devices Meeting, 2012, p.16.1.1-16.1.4
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language	eng ; jpn
recordid	cdi_ieee_primary_6479051
source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Capacitance-voltage characteristics Hall effect MOSFET circuits MOSFETs Oxidation Plasma temperature
title	Physical mechanism determining Ge p- and n-MOSFETs mobility in high Ns region and mobility improvement by atomically flat GeOx/Ge interfaces
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