A New Technique for the Preparation of Extremely Fine Metal Particles
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概要
- 論文の詳細を見る
- 社団法人応用物理学会の論文
- 1974-04-05
著者
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UYEDA Ryozi
Department of Physics, Nagoya University
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Uyeda Ryozi
Department Of Applied Physics Faculty Of Engineering Nagoya University
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Uyeda Ryozi
(present Address)department Of Physics Meijo University : Department Of Applied Physics Faculty Of E
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YATSUYA Shigeki
Department of Applied Physics, Faculty of Engineering, Nagoya University
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Yatsuya Shigeki
Department Of Applied Physics Faculty Of Engineering Nagoya University
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MIHAMA Kazuhiro
Department of Applied Physics, Faculty of Engineering, Nagoya University
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Mihama Kazuhiro
Department Of Applied Physics Faculty Of Engineering Nagoya University
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Yatsuta Shigeki
Department Of Applied Physics Faculty Of Engineering Nagoya University
関連論文
- A Technique for Studying Chemically Active Materials by Electron Microscopy
- Superconductivity in Films of Aluminum Fine Particles Prepared by Evaporation in Helium Gas
- Preparation of Ultrafine Powder of SiC by a Modified Gas-Evaporation Method
- Magnetic Properties of Extremely Fine Particles of Iron Prepared by Vacuum Evaporation on Running Oil Substrate
- Formation of Ultrafine Metal Particles by Gas-Evaporation : VI. Bcc Metals, Fe, V, Nb, Ta, Cr, Mo and W
- Multiply-Twinned Particles of Germanium("Formation of Ultrafine Praticls by Gas-Evaporation Technique.V")
- Formation of Ultrafine Particles by Gas-Evaporation Technique. : V.Silicon and Germanium in Argon
- Magnetic Properties of Ferromagnetic Metal Fine Particles Prepared by Evaporation in Argon Gas
- Observation of Extremely Fine Gold Crystallites Grown on Molybdenite Films by High Resolution Electron Microscopy
- A New Technique for the Preparation of Extremely Fine Metal Particles
- Mean Size and Size Distribution of Metal Fine Particles Produced by Gas Evaporation Technique
- Formation of Ultrafine Metal Particles by Gas-Evaporation Technique. : IV. Crystal Habits of Iron and Fcc Metals, Al, Co, Ni, Cu, Pd, Ag, In, Au and Pb
- Formation of Ultrafine Metal Particles by Gas-Evaporation Technique. III. : AN in He, Ar and Xe, and Mg in Mixtures of Inactive Gas and Air
- The Observation of Thick Specimens by High Voltage Electron Microscopy. : II. Experiment with Molybdenite Films at 50-1200kV.
- Electron Microscope Study on the Extinction and Absorption of 100kV Electrons in Magnesium Oxide Single Crystals
- BeO Supporting Films for High Resolution Electron Microscopy
- The Observation of Thick Specimens by High Voltage Electron Microscopy. : Experiment with Molybdenite Films at 50-500 kV
- Vanishing Voltages of the Second Order Reflection in Electron Diffraction
- Study on Fragmentation of Ionized Atom-Clusters by Time-of-Flight Mass Spectrometry
- Formation of Lead Clusters in Supersonic Nozzle Expansion: Effect of Nozzle Geometry
- Binary Compound Clusters Formed by Free Jet Expansion
- Formation and Ionization Potentials of Lead Clusters
- Electron Microscopy of Composite Films of Titanium and Magnesium Oxide
- Formation of Ti Hydride Ultrafine Particles and Transformation between TiH_2 and Ti
- High Resolution Electron Microscopy of Composite Films of Iron and Magnesium Oxide
- High Resolution Electron Microscopy of Composite Films of Gold and Magnesium Oxide
- Ferromagnetic Domains in F.C.C. Cobalt Fine Particles Observed by Lorentz Electron Microscopy
- A New Technique for the Formation of Ultrafine Particles by Sputtering
- Effect of Truncation of the Size Distribution of Extremely Fine Metal Particles
- Initial Stage of Epitaxial Growth of Evaporated Gold Films on Sodium Chloride
- Characterization of Ultra Fine Palladium Particles with the Mean Size of 20 A by X-Ray Diffraction
- Electron Microscopic Observation of PbS Islands
- Detection of Strain in InP/InGaP Superlattices by Dark-Field Electron Microscopy and Nano-Diffraction Technique
- The Fffects of Ion Bombardment on Molybdenite
- Ultrafine Metal Particles Formed by Gas-Evaporation Technique. : II. Crystal Habits of Magnesium, Manganese, Beryllium and Tellurium
- Formation of Ultrafine Metal Particles by Gas Evaporation Technique. I. Aluminium in Helium
- Observation of Lattice Images for θ' Precipitates in Al-4% Cu Alloys
- Growth and Structure of AuCu II Particles
- Formation of Quasicrystalline Aluminium-Vanadium and Aluminium-Chromium Fine Particles by Gas-Evaporation Technique
- Fine Particles of Titanium Prepared by Gas Evaporation