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Faculty of Engineering Osaka University | 論文
- Structure Change of Microcrystalline Silicon Films in Deposition Process
- Growth of Hydrogenated Germanium Microcrystal by Reactive Sputtering
- Auger and X-Ray Analyses of Iron-Oxide-Coated Si Photoelectrodes
- Impurity Effects in Chalcogenide Amorphous Semiconductors by Low-Temperature Diffusion of Metal Ions
- Diffusion Profile of Some Metal Ions in Chalcogenide Amorphous Semiconductors
- X-Ray Photoelectron and Electron Energy Loss Studies of Si-SiO_2 System: Angular Variation
- A Quantitative Analysis of Electron Enegy Loss Spectra of keV Electrons from Thin-Film-Substrate System
- Electronic Energy States of HfSe_2 and NbSe_2 by Low Energy Electron Loss Spectroscopy Study
- ELS Study of Amorphous Si(Substrate)-SiO_2(Film Overlayer) System with Varying Primary Electron Energy
- Electronic Energy States of Tungsten Dichalcogenides by Low Energy Electron Loss Spectroscopy Study
- Mechanical Controlling Factor of Weld Hydrogen Cracking
- Proposal of Power and Modulation Level Controlled Radio Entrance Network for Wireless ATM Access (Special Issue on the Latest Development of Telecommunication Research)
- Proposal of power and modulation level controlled radio entrance network for wireless ATM access
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part 5, Wall Shear Stress and Flow Pattern in a Laminar Flow
- Flow Pattern and Frictional Losses in Pulsating Pipe Flow : Part l, Effect of Pulsating Frequency on the Turbulent Flow Pattern
- A Experimental Study of Velocity Distribution and Inlet Length in the Inlet Region of Laminar Oscillatory Pipe Flow : Series B : Fluid Engineering, Heat Transfer, Combustion, Power, Thermophysical, Properties
- Turbulent Slug and Velocity Field in the Inlet Region for Pulsatile Pipe Flow : Fluids Engineering
- Flow Patterns and Frictional Losses in an Oscillating Pipe Flow
- Transition to Turbulence in a Pulsatile Pipe Flow Part 1,Wave Forms and Distribution of Pulsatile Velocities near Transition Region
- Analysis of the Toad Poison Bufadienolides by Rod-Thin-Layer Chromatography with Flame Ionization Detector