Low Temperature Specimen Method for Electron Diffraction and Electron Microscopy
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概要
- 論文の詳細を見る
Techniques of low temperature specimen method for electron diffraction and electron microscopy were developed. Convenient low temperature specimen holders were constructed with a sufficient number of freedoms to adjust specimen settings for various observations. The temperature of specimen support could be varied within a range from liquid nitrogen temperature to +200℃. Contaminations of specimen caused by condensation of residual vapours, which usually occur considerably below -80℃, were practically eliminated by improving the vacuum of the apparatus and by the use of a special shield around specimen. Results of preliminary studies on ice and mercury were briefly described: For ice, the contribution of hydrogen atoms to the diffraction pattern of ice was recognized; for mercury, the solid-liquid phase transition was studied by electron diffraction and the growth of hair-like mercury crystallites was observed by electron microscopy.
- 社団法人日本物理学会の論文
- 1956-05-05
著者
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Kitamura Norihisa
Tokyo Institute Of Technology
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Honjo Goro
Tokyo Institute Of Technology
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Shimaoka Kohji
Tokyo Institute Of Technology
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MIHAMA Kazuhiro
Japan Electron Optics Laboratory, Ltd.
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Mihama Kazuhiro
Japan Electron Optics Laboratory Ltd.
関連論文
- Diffuse Streak Dffraction Patterns from Single Crystals I. General Discussion and Aspcts of Electron Diffraction Diffuse Streak Patterns
- Electron Optical Studies of Barium Titanate Single Crystal Films
- Electron Diffraction Study of Ice
- Electron Beam Evaporator for In Situ Deposition Studies of Refractory Metal Thin Films in UHV Electron Microscope
- Electron Microscopic Study of Single Crystal Films of NaCl Containing CaCl_2
- Low Temperature Specimen Method for Electron Diffraction and Electron Microscopy
- Thermal Diffuse Streak in Electron Diffraction and Low Frequency Transverse Optic Lattice Waves of Barium Titanate
- Fine Structure due to Refraction Effect in Electron Diffraction Pattern of Powder Sample Part II. Multiple Structures due to Double Refraction given by Randomly Oriented Smoke Particles of Magnesium and Cadmium Oxide
- Fine Structure Due to Refraction Effect in Electron Diffraction Pattern of Powder Sample