A New Explanation for Defect Properties in bcc Iron
スポンサーリンク
概要
- 論文の詳細を見る
A new model based upcn the electronic 3d-band structure of ferromagneticmetals has been proposed for an explanation of the anomalous properties ofdefects in pure iron introduced by a low temperature electron or fast neutronirradiation. The abnormally high migration temperature of interstitials wasexplained by considering the atomic-level character of 3d-band electrons. Theanomalously low migration temperature of vacancies in iron was also explainedby using the same model.
- 社団法人日本物理学会の論文
- 1984-03-15
著者
-
MAETA Hiroshi
Department of Physics, Japan Atomic Energy Research Institute
-
Ono Fumihisa
College Of Liberal Arts And Sciences Okayama University
-
Maeta H
Japan Atomic Energy Research Inst. Ibaraki
-
KITTAKA Tomoyoshi
College of Liberal Arts and Sciences,Okayama University
-
Maeta Hiroshi
Department Of Materials Science And Engineering Japan Atomic Energy Research Institute
-
Kittaka Tomoyoshi
College Of Liberal Arts And Sciences Okayama University
関連論文
- Thermal Expansion Coefficient of Synthetic Diamond Single Crystal at Low Temperatures
- STM Study on Nanostructures of Au and Al Deposits on HOPG and Amorphous Carbon
- Pressure Effect on Curie Temperature in MnZnSb
- Nanoscale Evaluation of Strength and Deformation Properties of Ultrahigh-Purity Aluminum
- High Pressure Synthesis and magnetostrictive Measurement of Laves Phase Pr_R_xFe_2 (R=Ce, Nd)
- A New Explanation for Interstitial Migration Anomaly in Transition Metals by Using a Model d-Band
- Point Defects and Induced Magnetic Anisotropy in Fast Neutron Irradiated Iron
- A New Explanation for Defect Properties in bcc Iron
- Pressure Dependence of the Magnetic Phase Transition Temperature in Mn_Cr_xSb
- Anomalous X-Ray Diffuse Scattering in a Fa-Pd Invar Alloy
- Determination of Magnetic Anisotropy Constants from Unsaturated Torque Curves in Nd_2Fe_B
- A Study of Defect Structures in Fast Neutron Irradiated Nickel at Low Temperature Using Magnetic Anisotropy Measurements
- Thermal Stability of Nanocrystalline Gold Studied by X-ray Diffraction Method