SAKATA Yasutaka | ULSI Device Development Laboratories, NEC Corporation
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概要
関連著者
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SAKATA Yasutaka
ULSI Device Development Laboratories, NEC Corporation
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Sakata Yasutaka
Ulsi Device Development Laboratories Nec Corporation
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Sasaki Tatsuya
Opto And Wireless Deivce Res. Labs. Nec Corporation
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Kudo K
Chiba Univ. Chiba Jpn
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Sasaki Yasuhiro
Material Development Center Nec Corporation
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Furushima Yuji
The Authors Are With Ulsi Device Development Laboratory Nec Corporation
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SASAKI Tatsuya
Optoelectronics and High Frequency Device Research Laboratories, NEC Corporation
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KOMATSU Keiro
ULSI Device Development Laboratories, NEC Corporation
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Sasaki Yoshihiro
The Authors Are With Ulsi Device Development Laboratory Nec Corporation
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Komatsu K
Institute Of Multidisciplinary Research For Advanced Materials Tohoku University
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Komatsu Keiro
Ulsi Device Development Laboratories Nec Corporation
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OKUNUKI Yuichiro
The authors are with ULSI Device Development Laboratory, NEC Corporation
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FURUSHIMA Yuji
Optoelectronics and High Frequency Device Research Laboratories, NEC Corporation
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YAMAZAKI Hiroyuki
Optoelectronics and High Frequency Device Research Laboratories, NEC Corporation
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KUDO Koji
Optoelectronics and High Frequency Device Research Laboratories, NEC Corporation
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OKUNUKI Yuichiro
ULSI Device Development Laboratories, NEC Corporation
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SASAKI Yoshihiro
ULSI Device Development Laboratories, NEC Corporation
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Sakata Y
Nec Kansai Ltd. Shiga Jpn
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Sasaki T
Opto And Wireless Deivce Res. Labs. Nec Corporation
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Yamazaki H
The Authors Are With The Faculty Of Engineering Tokyo Institute Of Technology
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Okunuki Yuichiro
The Authors Are With Ulsi Device Development Laboratory Nec Corporation
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Sasaki Tatsuya
Optoelectronics And High Frequency Device Research Laboratories Nec Corporation
著作論文
- Improved High-Temperature and High-Power Characteristics of 1.3-μm Spot-Size Converter Integrated All-Selective Metalorganic Vapor Phase Epitaxy Grown Planar Buried Heterostructure Laser Diodes by Newly Introduced Multiple-Stripe Recombination Layers
- Pulse-mode Selective Metal-organic Vapor Phase Epitaxy Method for Migration Enhancement and High-quality Strained InGaAsP Multi-quantum Well Structure