スポンサーリンク
Department Of Electronics Faculty Of Engineering Nagoya University | 論文
- Thermal Stress Relaxation in GaAs Layer on New Thin Si Layer over Porous Si Substrate Grown by Metalorganic Chemical Vapor Deposition
- Room-Temperature CW Operation of AlGaAs/GaAs SQW Lasers on Si Substrates by MOCVD Using AlGaAs/AlGaP Intermediate Layers
- Cut-Offs for Screening Prolonged QT Intervals From Fridericia's Formula in Children and Adolescents
- 3P-197 キセノンガスによる大脳皮質由来培養神経回路網の電気活動抑制効果(神経回路・脳の情報処理,第47回日本生物物理学会年会)
- Diamond Film Formation by OH Radical Injection from Remote Microwave H_2/H_2O Plasma into Parallel-Plate RF Methanol Plasma
- High-Rate Anisotropic Ablation and Deposition of Polytetrafluoroethylene Using Synchrotron Radiation Process
- Synthesis of Diamond Using RF Magnetron Methanol Plasma Chemical Vapor Deposition Assisted by Hydrogen Radical Injection
- Submicron Patterning Technique for YBa_2Cu_3O_y Films Using Focused Ion Beam Lithography
- Initial Condition and Calculation Method for the Numerical Simulation of LPE
- Simulation of Compositional Variation in Liquid Phase Epitaxy InGaP Using a Two Dimensional Model
- Selective Area Growth of GaN on Si Substrate Using SiO_2 Mask by Metalorganic Vapor Phase Epitaxy
- Effects of Ar Dilution and Exciting Frequency on Absolute Density and Translational Temperature of Si Atom in Very High Frequency-Capacitively Coupled SiH_4 Plasmas
- Follow-up Results One Year after Surgery in Patients with Hypertensive Intracerebral Hemorrhage
- Growth of cupric oxide nanostructure by thermal oxidation of copper (シリコン材料・デバイス)
- An ultrasonic method for synthesis of ZnO nanostructure on glass substrates (シリコン材料・デバイス)
- Growth of cupric oxide nanostructure by thermal oxidation of copper (電子デバイス)
- An ultrasonic method for synthesis of ZnO nanostructure on glass substrates (電子デバイス)
- Growth of cupric oxide nanostructure by thermal oxidation of copper (電子部品・材料)
- An ultrasonic method for synthesis of ZnO nanostructure on glass substrates (電子部品・材料)
- Effects of Homoepitaxial GaAs/GaAs and Heteroepitaxial GaAs/Si Solar Cells after 1MeV Electron Irradiation for Space Application