Effect of Inconherent Waves on the Electron Microscopic Images of Crystals
スポンサーリンク
概要
- 論文の詳細を見る
The electron micrographs of crystalline specimens are taken by placing the aperture of the objective lens at various positions. Extinction contours, equal-thickness fringes and dislocation images are observed under a condition that none of the coherent waves-the transmitted and diffracted waves-enters the aperture. This implies that the above contrast effects are formed by incoherent waves which are neglected in current theories of diffraction contrast.
- 社団法人日本物理学会の論文
- 1961-07-05
著者
-
Uyeda Ryozi
Physical Institute Nagoya University
-
Uyeda Ryozi
Physical Institute Faculty Of Science Nagoya University
-
KAMIYA Yoshihiro
Physical Institute, Nagoya University
-
Kamiya Yoshihiro
Physical Institute Nagoya University
-
Kamiya Y.
Physical Institute, Nagoya University
関連論文
- A New Modification of Chromium
- An Electron Microscope Study on Fine Metal Particles Prepared by Evaporation in Argon Gas at Low Pressure
- Dislocation Networks and Moire Patterns of Molybdenite
- Oxide-Cored Cathode
- On the Structure of Adsorbed Organic Long-Chain Molecules on the Cleavage Surface of Molybdenite
- Effect of Inconherent Waves on the Electron Microscopic Images of Crystals
- Electron Microscopic Observation of the Superlattice in Serpentine
- Scattering of Electrons by Carbon Films
- A New Fine Focus X-ray Tube
- Magnification Calibration of Electron Microscopes by Crystal Lattice Spacings
- A Theory on Image Formation of Electron Microscope
- Effect of Inelastic Scattering on Mean and Anomalous Absorption Coefficients of Electrons in Magnesium Oxide Crystals Studied by Electron Microscope