Quenched High Pressure Phase of MnF_2 in the Gas-Evaporated Fine Particles
スポンサーリンク
概要
- 論文の詳細を見る
The quenched high pressure phase of MnF_2 (MnF_2-IV, Orthorhombic, α-PbO_2 type) were found by X-ray diffraction method in the fine particles prepared by the gas-evaporation in He and Ar. A proportion of such particles to the normal ones with the rutile structure (MnF_2-I) increased with increasing pressure of environment gas (3〜500 Torr).
- 社団法人日本物理学会の論文
- 1981-11-15
著者
-
Wada N
Nagoya Univ. Nagoya
-
Wada Nobuhiko
Faculty Of Sience Nagoya University
-
Wada Nobuhiko
Department Of Physics Faculty Of Science Nagoya University
-
KATO Manabu
Department of Earth Sciences, Nagoya University
-
Wada Nobuhiko
Department Of Applied Physics Waseda University
-
ICHIHASHI Toshinari
Department of Physics, Faculty of Science, Nagoya University
-
Kato Manabu
Department Of Earth Sciences Faculty Of Science Nagoya University
-
Ichihashi Toshinari
Department Of Physics Faculty Of Science Nagoya University
関連論文
- An EXAFS Investigation on the Lattice Relaxation of Ni-Fine Particles Prepared by Gas Evaporation
- Preferred orientation of phyllosilicates in Yamato-74642 and -74662, in relation to deformation of C2 chondrites
- A Technique for Studying Chemically Active Materials by Electron Microscopy
- Nuclear Magnetic Resonance in Aluminum Fine Particles Prepared by Gas Evaporation
- D.C. Electric Conductivity in Films of Aluminum Fine Particles Prepared by evaporation in Helium Gas
- Superconductivity in Films of Aluminum Fine Particles Prepared by Evaporation in Helium Gas
- Synthesis of Coesite from Ultra Fine Particles
- Gas Evaporation in Space
- Glomus tumor of the hypoplastic kidney
- Electron Spin Resonance in Fine Particles of Metallic Lithium
- Magnetic Properties of Ferromagnetic Metal Alloy Fine Particles Prepared by Evaporation in Inert Gases
- Magnetic Properties of Ferromagnetic Metal Fine Particles Prepared by Evaporation in Argon Gas
- Measurement of Vapor Distribution in Gas Evaporation without Convection by Atomic Absorption Method
- Molecular Process of Evaporation in Gas Atmosphere without Convection
- Gas Evaporation of Zn by Means of the Top-Heating Vertical Furnace
- Heat Capacity Anomaly of Ag Ultrafine Particles at Low Tempperatures
- Preparation of Ultrafine Particles by Gas Evaporation with Arc Plasma Sputtering
- Nuclear Fusion in Solid
- Kerr Magneto-Optical Measurement of Magnetism
- Specific Heat of Ultrafine Particles of Ag Prepared by the Gas Evaporation Technique
- Density of Vaporized Atoms of Zinc in Top-Heating Furnace
- A Method of Measuring the Size of Metallic Lithium Fine Particles by Electron Microscopy
- Preparation of Fine Metal Particles by Means of Evaporation in Xenon Gas
- Preparation of Fine Metal Particles by the Gas Evaporation Method with Plasma Jet Flame
- Ferromagnetic Domains in F.C.C. Cobalt Fine Particles Observed by Lorentz Electron Microscopy
- A Method of Preparation of Finely Dispersed Ultrafine Particles
- Quenched High Pressure Phase of MnF_2 in the Gas-Evaporated Fine Particles
- Preparation of Ultrafine Particles of Refractory Oxides by Gas-Evaporation Method
- Numerical estimation of lunar X-ray emission for X-ray spectrometer onboard SELENE
- Sulfur abundance of asteroid 25143 Itokawa observed by X-ray fluorescence spectrometer onboard Hayabusa
- Preparation of Fine Metal Particles by Means of Evaporation in Helium Gas