Transition from Dynamical to Kinematical Intensities of Electron Diffraction by Crystals
スポンサーリンク
概要
- 論文の詳細を見る
The transition from dynamical to kinematical intensities of electron diffraction from crystals with the change of wave-length of electrons and crystal thickness is theoretically discussed. It is pointed out that the usual treatment of the dynamical theory by the two-wave approximation fails to apply in the range of very short wave-length and small crystal thickness, even with the correction of the dynamical Fourier potential, so that the advent of some convenient treatments taking account of many reflected waves is of essential necessity for consideration of the transition of reflected intensities. It is pointed out, at the same time, that the application of the pseudo-kinematical theory using the complex atomic scattering amplitude calculated on isolated atoms is not permissible in the case of electron diffraction by crystals even for their thinnest limit.
- 社団法人日本物理学会の論文
- 1959-10-05
著者
-
Miyake Shizuo
Institute For Solid State Physics University Of Tokyo
-
Miyake Shizuo
Institute For Solid Physics University Of Tokyo
関連論文
- A Note on Diffuse Patterns in Electron Diffraction from Single Crystals
- Intensity Behaviour of Exchange Reflexions in LEED from an Antiferromagnetic Crystal
- Exchange Reflexions in Low Energy Electron Diffraction from Antiferromagnetic Nickel Oxide Crystal
- Relativistic Correction to the Method of Eliminating the Primary Extinction in Electron Diffraction
- Transition from Dynamical to Kinematical Intensities of Electron Diffraction by Crystals
- On "Lattice Image" in Electron Micrographs
- Dispersion for Double Refraction in Electron Diffraction by Magnesium Oxide Crystal
- Dependence of the Emission Yield of X-Rays from a Single Crystal on the Diffraction Condition of Exciting Electrons
- Kikuchi Patterns in Slow Electron Diffraction
- Nature of Slow Electron Diffraction by Crystals
- On "Lattice Image" in Electron Micrographs