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Institute Of Science And Engineering Kanazawa University | 論文
- E23 Laser Sintering Characteristics of Metallic Powder with Yb Fiber Laser : Optimization of Processing Conditions about Laser irradiation(Laser processing)
- C13 Finishing of Inner Wall of Cooling Channel in Mold by High Speed Flowing(Abrasive finishing technology)
- Atomic Topography Change of SiO_2/Si Interfaces during Thermal Oxidation : Semiconductors
- SiO_2 Surface and SiO_2/Si Interface Topography Change by Thermal Oxidation : Semiconductors
- Selective Growth of Buried n^+ Diamond on (001) Phosphorus-Doped n-Type Diamond Film
- Nanometer Scale Height Standard Using Atomically Controlled Diamond Surface
- Exciton-derived Electron Emission from (001) Diamond p-n Junction Diodes with Negative Electron Affinity
- High-Efficiency Excitonic Emission with Deep-Ultraviolet Light from (001)-Oriented Diamond p-i-n Junction
- Selective Growth of Monoatomic Cu Rows at Step Edges on Si(111) Substrates in Ultralow-Dissolved-Oxygen Water
- Nonuniformity in Ultrathin SiO_2 on Si(111) Characterized by Conductive Atomic Force Microscopy
- Selective Growth of Cu Nanowires on Si(111) Substrates
- In Situ Measurements of Drastic Change of Electrical Conductivity and Structure upon Electrochemical Lithium Intercalation in Pyrolyzed Poly(hydrazocarbonyl-1-4-phenylenecarbonyl) Film
- Anionic Fluoro Complex of Element 105, Db
- E22 Study on Cleaving Mechanism of Silicon Wafer by Laser Beam Irradiation(Laser processing)
- Power-law decay in rate of solute removal from ground water with various exponents associated with matrix diffusion in granular packed bed
- Electron Emission from a Diamond (111) p-i-n^+ Junction Diode with Negative Electron Affinity during Room Temperature Operation
- RNA-Binding Protein Hoip Accelerates PolyQ-Induced Neurodegeneration in Drosophila
- 1C1424 Hsp90のN末端ドメインとリガンド分子の分子動力学シミュレーション(核酸,第49回日本生物物理学会年会)
- A Secure Structured Multisignature Scheme Based on a Non-commutative Ring Homomorphism
- Pre-Groove Development for Laser Cleaving of Brittle Materials by Using Micro-Lens