A Theory of Impurity Conduction II
スポンサーリンク
概要
- 論文の詳細を見る
The impurity band conduction was treated where the resonance energy (or the translational energy) is much smaller than the fluctuation of local potential energy. By the interaction with phonon, electron can hop from one localized state to another, exchanging the difference of the local potential energies for a phonon. The agreement between theoretical and experimental results is fairly satisfactory.
- 社団法人日本物理学会の論文
- 1958-11-05
著者
-
Kasuya Tadao
Physical Institut Nagoya University
-
KOIDE Sigenao
Physical Institute, Nagoya University
-
Koide Sigenao
Physical Institute Nagoya University
-
KASUYA Tadao
Physical Institute, Nagoya University
関連論文
- Anomalous Hall Effect in Ce Monopnictides
- Mechanism of Anomalous NMR in CeB_5; II.
- Magnetic Order and Fermi Surface in CeAs. II
- Hidden Ordering and Heavy Mass in URu_2Si_2 and Its Alloys
- Physical Mechanism in Kondo Insulator
- Charge Dipolar Ordering in Yb Monopnictides
- Charge Dipolar Orderings and Magnetoelastics in Rare Earth Hexaborides
- Puzzle on the Fermi Surface in CeB_6 and PrB_6
- Mixing-Type Quadrupolar Order on Γ_7-Doublet in TmTe
- Mass Reduction in Low Carrier Density Systems
- Paired Distortion and Anomalies in Kondo Lattice CeB_6
- Puzzles on Fermi Surfaces in CeRu_2Si_2: Bonding Kondo State
- Normal and Anomalous Hall Effect in CeSb and CeBi
- Mechanisms of Anomalous NMR in CeB_6
- Gorter's Friction and Saturation of Surface Flow Rate
- Electrical Resistance of Ferromagnetic Metals
- A Theory of Impurity Conduction II
- Effects of s-d Interaction on Transport Phenomena
- The Critical Velocity and Frictions in the Flow of Liquid Helium II
- The Relaxation Process in Ferromagnetic Resonance Absorption
- The Relaxation Process in Ferromagnetic Resonance Absorption : The Effect of the Conduction Electron
- Damped Oscillation in the Surface Film of Liquid Helium II
- Physical Mechanisms in Electron Doped High T_c Systems
- On the Theory of Thermal Conductivity of Monovalent Metals
- A Theory of Metallic Ferro- and Antiferromagnetism on Zener's Model
- Temperature Dependence of Anisotropy Energy of Ferromagnetics