A New Low-Temperature Oxidation Technique by Gas Cluster Ion Beams
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概要
- 論文の詳細を見る
- 1995-08-21
著者
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YAMADA Isao
Ion Beam Engineering Experimental Laboratory, Kyoto University
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Matsuo J
Fujitsu Lab. Atsugi
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Matsuo Jiro
Ion Beam Engineering Experimental Laboratory Kyoto University
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Akizuki Makoto
Ion Beam Engineering Experimental Laboratory Kyoto University
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Harada M
National Res. Inst. Metals Ibaraki Jpn
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Ogasawara Satoru
Microelectronics Research Center, SANYO Electric Co., Ltd.,
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Harada Mitsuaki
Microelectronics Research Center, SANYO Electric Co., Ltd.,
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Doi Atsumasa
Microelectronics Research Center, SANYO Electric Co., Ltd.,
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AKIZUKI Makoto
Microelectronics Research Center, SANYO Electric Co., Ltd.
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Harada Mitsuaki
Microelectronics Research Center Sanyo Electric Co. Ltd.
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Doi Atsumasa
Microelectronics Research Center Sanyo Electric Co. Ltd.
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Ogasawara Satoru
Microelectronics Research Center Sanyo Electric Co. Ltd.
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Yamada Isao
Ion Beam Engineering Experimental Laboratory Kyoto University
関連論文
- Observation of Initial Stage of Al Epitaxial Growth on Si(111) by Ionized Cluster Beam Deposition
- Ionized Cluster Beams : Physics and Technology
- Near Edge X-Ray Absorption Fine Structure Study for Optimization of Hard Diamond-Like Carbon Film Formation with Ar Cluster Ion Beam
- Effects on CO Oxidation Activity of Nano-Scale Au Islands and TiO_2 Support Prepared by the Ionized Cluster Beam Method
- Epitaxial Growth of TiO_2 Rutile Thin Films on Sapphire Substrates by a Reactive Ionized Cluster Beam Method
- Interaction of SF_6 Cluster Ion Beams with Si Surface : Surfaces, Interfaces, and Films
- Low-Temperature Oxidation of Silicon by O_2 Cluster Ion Beams
- A New Low-Temperature Oxidation Technique by Gas Cluster Ion Beams
- Chemical States of Bromine Atoms on SiO_2 Surface after HBr Reactive Ion Etching : Analysis of Thin Oxide
- Mechanism of High Selectivity and Impurity Effects in HBr RIE: In-Situ Surface Analysis
- Microhardness and Strain Depth Profiles in Nitrogen-Implanted TiO_2 Films
- Near Edge X-Ray Absorption Fine Structure Study for Optimization of Hard Diamond-Like Carbon Film Formation with Ar Cluster Ion Beam