Momentum Densities in Aluminum by Compton Scattering and Positron Annihilation-Theory
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概要
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The APW method is applied to calculate both scattering cross sections of energetic photons and the angular correlation profile of the pesitron annihilation radiation of aluminum for three principal directions. The results are compared with available experiments. The calculations show the anisotropy both in the Compton profiles and the angular correlation profiles of positron annihilation radiation. For the former, the structural is found between the theoretical asnisotropy and the observed one. For the latter, the theoretical results are in excellent agreement with the observations.
- 社団法人日本物理学会の論文
- 1976-09-15
著者
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Kubo Yasunori
The Institute For Solid State Physics The University Of Tokyo
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Kubo Yasunori
Faculty Of Science Hiroshima University
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Wakoh Shinya
The Institute For Solid State Physics The University Of Tokyo
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Yamashita Jiro
Physics Department Nihon University
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Yamashita Jiro
The Institute For Solid State Physics University Of Tokyo
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Yamashita Jiro
The Institute For Solid State Physics The University Of Tokyo
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Wakoh Shinya
The Institute for Solid State Physics,The University of Tokyo
関連論文
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- Crystal Potentials and the Fermi Surface of the Alkali Metals. II
- Optical Properties of Mo and Nb Calculated from APW Band Structures
- Energy Loss Spectrum of Copper
- Momentum Densities in Aluminum by Compton Scattering and Positron Annihilation-Theory
- Compton Profiles due to the Band Electrons in Metallic Vanadium and Chromium
- Angular Distribution of Positron Annihilation Radiation in Vanadium and Niobium - Theory
- Interband Optical Conductivity of Rb
- Band Structure of Metals under High Pressure. I. / Fermi Surface of Na and K
- Fermi Surface of Ni
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- Transverse Magnetoresistance in hcp Cobalt
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- State-Dependent Potentials in Metallic Vanadium and Chromium
- Compton Profile of Niobium
- Stability of Non-Magnetic State in 3d Transition Metals
- Band Structure of Metals under High Pressure. II. : Fermi Surface of Cs
- Band Structure of Cobalt by a Self-Consistent Procedure
- Momentum Wave Functions of APW in Lithium, Sodium and Potassium
- Momentum Density Distribution in Magnesium for Compton Scattering and Positron Annihilation
- Compton Profiles of Metallic Vanadium
- Band Structure of Ferromagnetic Iron Self-Consistent Procedure
- Electrical Resistance of Nickel
- Heitler-London Approach To Electrical Conductivity and Application to d-Electron Conductions
- Dielectric Matrix for Copper