Modeling and characterization of atomically sharp “perfect” Ge/SiO 2 interfaces

Wolfgang Windl; Tao Liang; Sergei Lopatin; Gerd Duscher

doi:10.1016/j.mseb.2004.07.041

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Modeling and characterization of atomically sharp “perfect” Ge/SiO 2 interfaces

Journal article

Peer reviewed

Modeling and characterization of atomically sharp “perfect” Ge/SiO 2 interfaces

Wolfgang Windl, Tao Liang, Sergei Lopatin and Gerd Duscher

Materials science & engineering. B, Solid-state materials for advanced technology, Vol.114, pp.156-161

2004

DOI: https://doi.org/10.1016/j.mseb.2004.07.041

Abstract

Ab-initio calculations

Ge/SiO 2 interfaces

Oxidation

We have shown that oxidation of germanium-implanted Si can produce a pile-up of Ge in front of the oxidation front and produce an atomically-sharp interface. In this paper, we examine band-structure and processing of such an interface. Based on ab-initio calculations, the band structure of the sharp interface seems to be more favorable for use in electronic devices than the usually diffuse interface in Si/SiO 2. Furthermore, we propose an ab-initio based Monte-Carlo model to simulate oxidation of SiGe alloys. The model explains the formation of the sharp interface due to the repulsive interaction between O and Ge. Furthermore, inclusion of Ge into the oxide is predicted for higher Ge concentrations, in agreement with experiment.

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Title: Modeling and characterization of atomically sharp “perfect” Ge/SiO 2 interfaces
Creators - without role: Wolfgang Windl - The Ohio State University
Tao Liang - The Ohio State University
Sergei Lopatin - North Carolina State University
Gerd Duscher - North Carolina State University
Publication Details: Materials science & engineering. B, Solid-state materials for advanced technology, Vol.114, pp.156-161
Publisher: Elsevier B.V
Identifiers: 9945837408331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article