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Roles of SiH3 and SiH2 Radicals in Particle Growth in rf Silane Plasmas.
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- Kawasaki Hiroharu
- Department of Electronic Device Engineering, Graduate School of Information Science and Electrical Engineering, Kyushu University, Hakozaki, Fukuoka 812–81, Japan
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- Ohkura Hiroshi
- Department of Electronic Device Engineering, Graduate School of Information Science and Electrical Engineering, Kyushu University, Hakozaki, Fukuoka 812–81, Japan
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- Fukuzawa Tsuyoshi
- Department of Electronic Device Engineering, Graduate School of Information Science and Electrical Engineering, Kyushu University, Hakozaki, Fukuoka 812–81, Japan
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- Shiratani Masaharu
- Department of Electronic Device Engineering, Graduate School of Information Science and Electrical Engineering, Kyushu University, Hakozaki, Fukuoka 812–81, Japan
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- Watanabe Yukio
- Department of Electronic Device Engineering, Graduate School of Information Science and Electrical Engineering, Kyushu University, Hakozaki, Fukuoka 812–81, Japan
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- Yamamoto Yasuo
- Department of Electronics, Faculty of Engineering, Nagoya University, Furo–cyo, Chikusa–ku, Nagoya 464, Japan
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- Suganuma Shinji
- Department of Electronics, Faculty of Engineering, Nagoya University, Furo–cyo, Chikusa–ku, Nagoya 464, Japan
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- Hori Masaru
- Department of Electronics, Faculty of Engineering, Nagoya University, Furo–cyo, Chikusa–ku, Nagoya 464, Japan
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- Goto Toshio
- Department of Electronics, Faculty of Engineering, Nagoya University, Furo–cyo, Chikusa–ku, Nagoya 464, Japan
Bibliographic Information
- Other Title
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- Roles of SiH3 and SiH2 Radicals in Part
- Roles of SiH<sub>3</sub>and SiH<sub>2</sub>Radicals in Particle Growth in rf Silane Plasmas
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Description
Temporal evolutions of spatial profiles of SiH3 radicals, radical production rates, short-lifetime radicals and particle amount in rf silane plasmas are studied using various methods including infrared-diode-laser-spectroscopic and laser-light-scattering methods. Based on the results, contributions of SiH3 and SiH2 radicals to particle growth are discussed. Particles nucleate and grow, from beginning of their growth, principally around the plasma/sheath boundary near the powered electrode. The spatial profile of the particle amount is very similar to those of the densities and production rate of short-lifetime radicals. A density of SiH3 radicals amounts to about 1012 cm-3, and its spatial profile is fairly flat between the electrodes from the discharge initiation. These results suggest that the particle species responsible for the nucleation of particles is not SiH3 but radicals such as SiH2, which is highly reactive and produced at a high rate. The SiH2 radicals react quickly with Si nH2 n+2 (n=1, 2, …) to form polymerized species. Among them, the higher-order polymerized species absorb the lower-order ones produced later, and consequently suppress further nucleation of particles. While the contribution of SiH3 radicals to particle nucleation and subsequent initial growth is not so important, they may affect the deposition rate of film on the substrate when the particle radius increases to about 10 nm.
Journal
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- Japanese Journal of Applied Physics
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Japanese Journal of Applied Physics 36 (7B), 4985-4988, 1997
The Japan Society of Applied Physics
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Keywords
Details 詳細情報について
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- CRID
- 1390282681225635328
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- NII Article ID
- 10004374649
- 210000041574
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- NII Book ID
- AA10457675
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- COI
- 1:CAS:528:DyaK2sXlsVGlu7c%3D
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- ISSN
- 13474065
- 00214922
- https://id.crossref.org/issn/13474065
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- NDL BIB ID
- 4270510
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- Text Lang
- en
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- Data Source
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- JaLC
- NDL Search
- Crossref
- CiNii Articles
- OpenAIRE
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- Abstract License Flag
- Disallowed
