<研究速報> (<小特集>マイクロマシン)
スポンサーリンク
概要
著者
-
NISHIOKA Masao
Institute of Industrial Science, University of Tokyo
-
Arakawa Yasuhiko
Collaborative Institute For Nano Quantum Information Electronics The University Of Tokyo
-
Fujita H
3rd Department Institute Of Industrial Science University Of Tokyo
-
Fujita Hiroyuki
3rd Department, Institute of Industrial Science, University of Tokyo
-
Podlecki Jean
3rd Department, Institute of Industrial Science, University of Tokyo
-
Nishioka Masao
3rd Department, Instituteof Industrial Science, University of Tokyo
-
Arakawa Yasuhiko
3rd Department, Institute of Industrial Science, University of Tokyo
-
Toshiyoshi Hiroshi
3rd Department, Institute of Industrial Science, University of Tokyo
-
年吉 洋
3rd Department, Institute of Industrial Science, University ofTokyo
-
Arakawa Yasuhiko
3rd Department Institute Of Industrial Science University Of Tokyo
-
Toshiyoshi Hiroshi
Iis. Univ. Of Tokyo
-
Toshiyoshi Hiroshi
3rd Department Institute Of Industrial Science University Of Tokyo
-
Podlecki Jean
3rd Department Institute Of Industrial Science University Of Tokyo
-
Nishioka M
Institute Of Industrial Science University Of Tokyo
-
Toshiyoshi Hiroshi
Inst. Of Industrial Sci. The Univ. Of Tokyo
-
Fujita Hiroyuki
3rd Department Institute Of Industrial Science University Of Tokyo
-
西岡 政雄
3rd Department, Instituteof Industrial Science, University of Tokyo
関連論文
- 榊裕之先生,平成20年度文化功労者に
- 1.総論:先端ナノフォトニクスの展開 : 量子ドットを中心にして(進化する先端フォトニックデバイス)
- First Demonstration of Electrically Driven 1.55μm Single-Photon Generator
- MOCVD法により作製したGaAs基板上GaInNAs埋め込みInAs量子ドットレーザの1.3μm帯室温連続発振(量子効果デバイス(光信号処理,LD,光増幅,変調等)と集積化技術,及び一般)
- Single-photon generator for telecom applications
- Photonic Crystal Nanocavity Continuous-wave Laser Operation at Room Temperature
- 学術講演「未来社会に向けた工学の新展開〜エレクトロニクスを中心にして〜」
- Development of Electrically Driven Single-Photon Emitter at Optical Fiber Bands
- Single-Photon Generation in the 1.55-μm Optical-Fiber Band from an InAs/InP Quantum Dot
- Observation of Light Emission at-1.5μm from InAs Quantum Dots in Photonic Crystal Microcavity