Dynamical Structure Factor in the Electron Liquid
スポンサーリンク
概要
- 論文の詳細を見る
The effect of single particle damping on S(q, a) for the homogeneous electronliquid is examined and clarified. A dip in S(q, co) is found to be caused by a rapidincrease in the damping when the electron involved is able to emit a plasmon.This explains quite well experimental results from inelastic X-ray scattering.
- 社団法人日本物理学会の論文
- 1983-06-15
著者
-
Niklasson Goran
Institute Of Theoretical Physics Chalmers University Of Technology
-
Sjolander Alf
Institute Of Theoretical Physics Chalmers University Of Technology
-
Yoshida Fukuo
Research Reactor Institute Kyoto University
-
Yoshida Fukuo
Reseaerch Reactor Institute Kyoyo University
関連論文
- Oscillatory Dynamical Correlations and Elementary Excitations in Liquid He^4 : Condensed Matter and Statistical Physics
- Dynamical Effects of the Landau Parameter F_2 in Normal Fermi Liquids
- Dynamical Structure Factor in the Electron Liquid
- A Self-Consistent Theory of Memory Function in Classical Simple Liquids. I : Incoherent Scattering Law S_s (k,ω)
- Structure Relaxation in Super-Cooled Liquids
- Dynamical Structure Factor and Elementary Excitations in Liquid He^3
- Molecular Reorientational Correlations and Incoherent Scattering Law
- High-Frequency Expansion of Memory Function in Classical Simple Liquids. III : Liquid Metals
- Dynamical Structure Factor and Elementary Excitations in Normal Liquid He^3
- High-Frequency Expansion of Memory Function in Classical Simple Liquids
- Local-Field Correction and Dynamical Structure Factor of Electron Liquids
- High-Frequency Expansion of Memory Function in Classical Simple Liquids. II : Transverse Collective Modes
- Dynamical Structure Factor and Collective Modes in Classical One-Component Plasmas
- A Self-Consistent Theory of Memory Function in Calssical Simple Liquids. II : Dynamical Structure Factor and Current-Current Correlation Function
- A Self-Consistent Theory of Response Function and Effective Potential : A General Theory of Density Fluctuations in Classical and Quantum Liquids