Isotope Effect of Penetration of Hydrogen and Deuterium into Silicon through Si/SiO<sub>2</sub>Interface

Murakami, Kouichi; Fukata, Naoki; Ishioka, Kunie; Kitajima, Masahiro; Uchida, Noriyuki; Kunitomo, M.; Morihiro, H.; Shirakawa, Ryota; Tsujimura, Manabu

doi:10.1143/jjap.48.091204

Jpn. J. Appl. Phys.

2009

DOI: 10.1143/jjap.48.091204

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Isotope Effect of Penetration of Hydrogen and Deuterium into Silicon through Si/SiO₂Interface

Kouichi Murakami

Naoki Fukata

Kunie Ishioka

et al.

Abstract: The state-selective dissociation dynamics for anionic and excited neutral fragments of gaseous SiCl 4 following Cl 2p and Si 2p core-level excitations were characterized by combining measurements of the photoninduced anionic dissociation, x-ray absorption and UV/visible dispersed fluorescence. The transitions of core electrons to high Rydberg states/doubly excited states in the vicinity of both Si 2p and Cl 2p ionization thresholds of gaseous SiCl 4 lead to a remarkably enhanced production of anionic, Si − and… Show more

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Development of the reactive force field and silicon dry/wet oxidation process modeling

Noaki,

Numazawa,

Jeon

et al. 2023

npj Comput Mater

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We developed the Si/O/H reactive force field parameter set and applied to silicon dry/wet oxidation process to understand the underlying physics of the thermal oxidation of the Si(100) surface. Through a systematic development of the Si/O parameter using the experimental data of the volumes of the SiO2 crystal as a reference, we reproduced the same result over the temperature range of 300–1300 K. With strategic tunings of parameters related to Si/O/H system, we carried out the simulation comparing the wet-and dry processes. A significant acceleration of the oxide film growth seen in the ‘in-situ-steam-generation (ISSG)’ is successfully represented. These properties of our model imply its applicability in wider scope. We compare our results with those obtained by using parameter set recently developed by other authors. Investigating the configuration of atoms near the interface of the SiO2 film, our model is found to be able to study the role of hydrogen atoms for the ISSG acceleration.

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Development of the reactive force field and silicon dry/wet oxidation process modeling

Noaki,

Numazawa,

Jeon

et al. 2023

npj Comput Mater

View full text Add to dashboard Cite

show abstract

Penetration of Hydrogen and Deuterium into Si and Hydrogen States in Si

Murakami¹

2010

J. Vac. Soc. Jpn.

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We review recent works on 1) an isotope effect of penetration of Hydrogen(H) and Deuterium(D) into Silicon through Si/SiO 2 interface and 2) H effects for Si nanostructures, as well as summary of hydrogen states in crystal Si. In particular, a new filtering effect of H and D isotope atoms was found for penetration process into crystal silicon (Si) through the interface between a Si and SiO 2 native oxide layer. More H atoms are introduced into Si than D for mixing gases. This phenomenon can be tentatively explained in terms of an isotope filtering model of H and D via an intermediate cluster state formed at the interface between the native SiO 2 layer and crystal Si. Hydrogen passivation of interface defects is shown to be needed for knowing proper impurity doping effects, and electronic, optical, and magnetic properties in Si nanostructures. . はじめに

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Isotope Effect of Penetration of Hydrogen and Deuterium into Silicon through Si/SiO₂Interface

Cited by 2 publications

References 18 publications

Development of the reactive force field and silicon dry/wet oxidation process modeling

Development of the reactive force field and silicon dry/wet oxidation process modeling

Penetration of Hydrogen and Deuterium into Si and Hydrogen States in Si

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Isotope Effect of Penetration of Hydrogen and Deuterium into Silicon through Si/SiO2Interface

Cited by 2 publications

References 18 publications

Development of the reactive force field and silicon dry/wet oxidation process modeling

Development of the reactive force field and silicon dry/wet oxidation process modeling

Penetration of Hydrogen and Deuterium into Si and Hydrogen States in Si

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Isotope Effect of Penetration of Hydrogen and Deuterium into Silicon through Si/SiO₂Interface