Newly Developed High-Speed Rotating Disk Chemical Vapor Deposition Equipment for Poly-Si Films
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概要
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We have developed high-speed rotating disk chemical vapor deposition (CVD) equipment. A high deposition rate, good thickness uniformity and few particles were achieved for polycrystalline silicon (poly-Si) film deposition on a 200-mm-diameter silicon (Si) wafer, by optimizing the structure of the rotating disk CVD equipment. A magnetic bearing motor was used for rotating and controlling the 200-mm-diameter wafer at 3000 rpm, and the substrate temperature was controlled to be 600–900°C. Gas flow was also controlled to avoid the re-adsorption of reaction by-products onto the wafer surface. A deposition rate of 316 nm/min, a film thickness nonuniformity $\pm 3$%, and less than 20 particles (over 200 nm in diameter) were achieved at a deposition temperature of 680°C for poly-Si deposition on the 200-mm-diameter wafer. These results show that the number of particles can be reduced even at a high deposition rate. The mechanisms of the high performance for poly-Si deposition are considered to be the reduction in the thickness of the boundary layer of temperature above the wafer surface and the suppression of the vapor-phase reaction.
- 2005-01-15
著者
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Homma Tetsuya
Postgraduate Course Of Functional Control System Shibaura Institute Of Technology
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KOBAYASHI Hiroaki
Corporate Manufacturing Engineering Center, Toshiba Corporation
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Terai Fujio
Postgraduate Course Of Functional Control System Shibaura Institute Of Technology
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Sato Yuusuke
Corporate Research And Development Center Toshiba Corporation
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Katsui Shuji
Semiconductor Company Toshiba Corporation
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Katsui Shuji
Semiconductor Company, Toshiba Corporation, 3500 Matuoka, Ooita-shi, Ooita 870-0125, Japan
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Nagatomo Takao
Postgraduate Course of Functional Control System, Shibaura Institute of Technology, 3-9-14 Shibaura, Minato-ku, Tokyo 108-8548, Japan
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Sato Yuusuke
Corporate Research and Development Center, Toshiba Corporation, 1 Komukai Toshiba-cho, Saiwai-ku, Kawasaki, Kanagawa 212-8582, Japan
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