Sugiyama Ikuto | Recording Media Division Teijin Limited
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概要
関連著者
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Sugiyama Ikuto
Recording Media Division Teijin Limited
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Umezawa Tomokazu
Recording Media Research Laboratory
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Takase Aya
Application Laboratory Rigaku Corporation
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Fujinawa Go
Application Laboratory Rigaku Corporation
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Sugiyama Ikuto
Recording Media Research Laboratory Teijin Limited
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Hirasaka Masao
Polymer Research Center Teijin Limited
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SEKIYA Masahiko
Recording Media Research Laboratory
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Takase A
Application Laboratory Rigaku Corporation
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YAMADA Hideaki
Research and Development Department, Seiko Epson Corporation
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Sugiyama Ikuto
Recording Media Research Laboratory
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EBINA Atsushi
Technical & Development Section, Recording Media Mihara Factory, Teijin Limited
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HIRASAKA Masao
Polymer Research Center, Teijin Limited
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UMEZAWA Tomokazu
Recording Media Research Laboratory, Teijin Limited
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FUJII Eiichi
Research and Development Department. Seiko Epson Corporation
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KASEYA Hiroyasu
Research and Development Department. Seiko Epson Corporation
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Sekiya Masahiko
Recording Media Research Laboratory Teijin Limited
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Yamada Hideaki
Research And Development Department. Seiko Epson Corporation
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Sugiyama Ikuto
Recording Media Research Laboratory, Teijin Limited, 1-1-1 Enichi-cho, Mihara-shi, Hiroshima 723-8611, Japan
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Ebina Atsushi
Recording Media Research Laboratory, Teijin Limited, 1-1-1 Enichi-cho, Mihara-shi, Hiroshima 723-8611, Japan
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Isemoto Jun
Material Analysis Research Laboratory, Teijin Limited, 4-3-2 Asahigaoka, Hino-shi, Tokyo 191-8512, Japan
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Hirasaka Masao
Polymer Research Center, Teijin Limited, 2-1-1 Uchisaiwai-cho, Chiyoda-ku, Tokyo 100-8585, Japan
著作論文
- UV Laser Mastering with a Multilayer Coating Method Producing Land/Groove Type of Optical Disk with Track Pitch of 0.3 μm or Less
- High-Density Optical Disk Mastering Using Multilayer Coating Method
- Crystal Structure of Oxygen/Nitrogen-Doped GeSbTe Phase-Change Media : Investigation Using Grazing Incidence X-ray Diffraction (Short Note)
- Improvements of Resolution and Surface Roughness using Alkaline Treatment of Photoresist Surface in High-Density Optical Disk Mastering
- Effect of ZnS Adhesion Layer on Overwrite Cyclability of Phase Change Optical Recording Media