Abstract
The long-time behavior of the velocity autocorrelation function in a classical two-dimensional electric conduction system is studied by the molecular dynamics simulation. In equilibrium, the effect of coexistence of many-body interactions and a random potential is investigated. A crossover from a positive tail proportional to t-1, to a negative tail proportional to -t -2 is observed as the strength of the random potential increases. In nonequilibrium, the positive tail is enhanced whereas the negative tail appears at earlier times as an electric field increases.
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CITATION STYLE
Yuge, T., & Shimizu, A. (2009). Long-time tail in an electric conduction system. In Progress of Theoretical Physics Supplement (pp. 64–71). Yukawa Institute for Theoretical Physics. https://doi.org/10.1143/PTPS.178.64
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