Effects of Energy Density Wave on Thermal and Electrical Conductions in Solid: Fluctuations in Hydrodynamic Excitations as Their Generalization
スポンサーリンク
概要
- 論文の詳細を見る
It is investigated how hydrodynamic excitations affect the spectrum of various fluctuating quantities and response functions. In solid, the propagating hydrodynamic excitation in phonon gas, that is, second sound contributes to thermal conduction. The corresponding conductivity diverges if the lower limit of the momentum of the excitation decreases to zero. The density fluctuation in the hydrodynamic excitations is polydispersive and has the spectrum being proportional to the inverse frequency 1/f in the long wavelength limit. Such a fluctuation leads to the 1/f characteristic in current fluctuations which are observed only when static electric field is externally applied to conductors and semiconductors. The spectrum of 1/f characteristic in density fluctuations in hydrodynamic excitations is universal. The observation of the fluctuations in hydrodynamic excitations is possible only if a certain external field is applied.
- 社団法人日本物理学会の論文
- 1972-09-05
著者
-
Matsuno Koichiro
Central Research Laboratories Nippon Electric Company Ltd.
-
Matsuno Koichiro
Central Research Laboratories Nippon Electric Co. Ltd.
関連論文
- Regulated Crosslinked Actin Filaments and the Decoupling between Their ATPase Activity and Sliding Motility
- ATP Hydrolysis and Sliding Movement of Actomyosin Complex in the Presence of Ethanol
- Transition of Structure and Phase as a Condensation of Excitations
- Prebiological Molecular Evolution as Physico-Chemical Processes
- Spontaneous Symmetry Breaking and Propagating Hydrodynamic Wave in the Critical Region
- Effects of Energy Density Wave on Thermal and Electrical Conductions in Solid: Fluctuations in Hydrodynamic Excitations as Their Generalization
- Minimization of the Krylov Kolmogorov Dynamic Entropy in Nonequlilbrium Steady State
- Macroscopic Collective Excitations Associated with Phase Changes