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Electrotechnical laboratory | 論文
- Depletion-Layer Transduction of Surface Waves on Piezoelectric Semiconductor
- Development of High Efficiency Gyrotron with Depressed Collector for ECH System
- Photoemission study of the Au-SrTiO3(100) surface (特集 量子ビームによるナノバイオ科学と基盤技術)
- n-Type Control by Sulfur Ion Implantation in Homoepitaxial Diamond Films Grown by Chemical Vapor Deposition
- High-Quality B-Doped Homoepitaxial Diamond Films using Trimethylboron
- Growth of the Single Crystals of the Superconducting Compounds in the System with Bi-(Pb)-Sr-Ca-Cu-O Using KCl or KBr as a Flux : I-C Single Crystal Growth : I. Oxide Superconductors, Experiments I : Material Syntheses and Crystal Structures
- New Pt Complex Oxides R_2Ba_2CuPtO_8 (R=Er, Ho, Y), R_2Ba_3Cu_2PtO_(R=Er, Ho, Y) and [Ba]_x[(Pt, Cu)O_3] : I-A New Materials and Material Design : I. Oxide Superconductors, Experiments I : Material Syntheses and Crystal Structures
- Differential Roles of Signaling Pathways for Proliferation and Migration of Rat Pancreatic Stellate Cells
- Establishment and Characterization of a Simian Virus 40-Immortalized Rat Pancreatic Stellate Cell Line
- Electron-Nuclear Double Resonance Studies of π-Electron Defect States in Undoped Poly (Paraphenylene Vinylene)
- Composition dependence of the Phase Transition Temperatures in the Mixed Crystal Systems near SrTiO_3
- Observation of RHEED Intensity Oscillation in the Growth of Ag on Ag(100) Single crystals : Condensed Matter
- Characterization of Column III Vacancies in Al_xGa_As/GaAs Heterostructures Grown by Molecular Beam Epitaxy through Slow Positrons
- Flexible Semantic Networks for Knowledge Representation
- Neutron Diffraction Study of Ni_Cu_S_2
- Molecular Analysis of Hereditary Deficiency of the Third Component of Complement (C3) in TWO Sisters
- Phenotypes of X-linked Charcot-Marie-Tooth disease and altered trafficking of mutant Connexin 32 (GJB1)
- 落下塔利用による微小重力環境下における半導体の融解と凝固実験
- 航空機利用による微小重力環境下と地上におけるInGaSb半導体の結晶成長
- X-Ray Photoemission Spectroscopy of Nd_Ce_xCuO_4 and La_Sr_xCuO_4