Generation of excess Si species at Si/SiO2 interface and their diffusion into Si/O2 during Si thermal oxidation

Kenzo Ibano; Kohei M. Itoh; Masashi Uematsu

doi:10.1063/1.2831293

Generation of excess Si species at Si/SiO₂ interface and their diffusion into Si/O₂ during Si thermal oxidation

Kenzo Ibano, Kohei M. Itoh, Masashi Uematsu

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11 Citations (Scopus)

Abstract

Si self-diffusion in thermally grown Si O2 near the Si O2 Si interface during thermal oxidation process was studied using isotopic heterostrucutures (Sinat O2 Si28) as a function of the oxidation temperature, the oxidation time, and the fraction of oxygen in the ambient gas. The Si self-diffusivity near the Si O2 Si interface during oxidation was found to be larger than the thermal Si self-diffusivity by more than one order of magnitude. This enhancement indicates that Si species are emitted from the Si O2 Si interface and diffused into Si O2 during oxidation, as has been predicted by recent theoretical studies.

Original language	English
Article number	026101
Journal	Journal of Applied Physics
Volume	103
Issue number	2
DOIs	https://doi.org/10.1063/1.2831293
Publication status	Published - 2008

ASJC Scopus subject areas

General Physics and Astronomy

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10.1063/1.2831293

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title = "Generation of excess Si species at Si/SiO2 interface and their diffusion into Si/O2 during Si thermal oxidation",

abstract = "Si self-diffusion in thermally grown Si O2 near the Si O2 Si interface during thermal oxidation process was studied using isotopic heterostrucutures (Sinat O2 Si28) as a function of the oxidation temperature, the oxidation time, and the fraction of oxygen in the ambient gas. The Si self-diffusivity near the Si O2 Si interface during oxidation was found to be larger than the thermal Si self-diffusivity by more than one order of magnitude. This enhancement indicates that Si species are emitted from the Si O2 Si interface and diffused into Si O2 during oxidation, as has been predicted by recent theoretical studies.",

author = "Kenzo Ibano and Itoh, {Kohei M.} and Masashi Uematsu",

note = "Funding Information: We thank H. Kageshima and K. Shiraishi for fruitful discussions and A. Takano for SIMS measurements. This work was supported in part by the Research Program on Collaborative Development of Innovative Seeds by JST, by Grant-in-Aid for Scientific Research No. 18360027 of JSPS, and by Special Coordination Funds for Promoting Science and Technology.",

year = "2008",

doi = "10.1063/1.2831293",

language = "English",

volume = "103",

journal = "Journal of Applied Physics",

issn = "0021-8979",

publisher = "American Institute of Physics",

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TY - JOUR

T1 - Generation of excess Si species at Si/SiO2 interface and their diffusion into Si/O2 during Si thermal oxidation

AU - Ibano, Kenzo

AU - Itoh, Kohei M.

AU - Uematsu, Masashi

N1 - Funding Information: We thank H. Kageshima and K. Shiraishi for fruitful discussions and A. Takano for SIMS measurements. This work was supported in part by the Research Program on Collaborative Development of Innovative Seeds by JST, by Grant-in-Aid for Scientific Research No. 18360027 of JSPS, and by Special Coordination Funds for Promoting Science and Technology.

PY - 2008

Y1 - 2008

N2 - Si self-diffusion in thermally grown Si O2 near the Si O2 Si interface during thermal oxidation process was studied using isotopic heterostrucutures (Sinat O2 Si28) as a function of the oxidation temperature, the oxidation time, and the fraction of oxygen in the ambient gas. The Si self-diffusivity near the Si O2 Si interface during oxidation was found to be larger than the thermal Si self-diffusivity by more than one order of magnitude. This enhancement indicates that Si species are emitted from the Si O2 Si interface and diffused into Si O2 during oxidation, as has been predicted by recent theoretical studies.

AB - Si self-diffusion in thermally grown Si O2 near the Si O2 Si interface during thermal oxidation process was studied using isotopic heterostrucutures (Sinat O2 Si28) as a function of the oxidation temperature, the oxidation time, and the fraction of oxygen in the ambient gas. The Si self-diffusivity near the Si O2 Si interface during oxidation was found to be larger than the thermal Si self-diffusivity by more than one order of magnitude. This enhancement indicates that Si species are emitted from the Si O2 Si interface and diffused into Si O2 during oxidation, as has been predicted by recent theoretical studies.

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Generation of excess Si species at Si/SiO₂ interface and their diffusion into Si/O₂ during Si thermal oxidation

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