Self-diffusion in a non-uniform one dimensional system of point particles with collisions期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

Self-diffusion in a non-uniform one dimensional system of point particles with collisions

Authors:	Detlef Dürr Sheldon Goldstein Joel L. Lebowitz

Affiliation:	(1) BIBOS, Universität Bielefeld, D-4800 Bielefeld, Germany;(2) Department of Mathematics, Rutgers University, 08903 New Brunswick, NJ, USA

Abstract:	Summary We generalize the results of Spitzer, Jepsen and others [1–4] on the motion of a tagged particle in a uniform one dimensional system of point particles undergoing elastic collisions to the case where there is also an external potential U(x). When U(x) is periodic or random (bounded and statistically translation invariant) then the scaled trajectory of a tagged particle ${{y_A (t) = y(At)} mathord{left/ {vphantom {{y_A (t) = y(At)} {sqrt A }}} right. kern-nulldelimiterspace} {sqrt A }}$ converges, as A , to a Brownian motion W_D(t) with diffusion constant ${{D = rho _{min } leftlangle {\|v\|} rightrangle } mathord{left/ {vphantom {{D = rho _{min } leftlangle {\|v\|} rightrangle } {hat rho ^2 }}} right. kern-nulldelimiterspace} {hat rho ^2 }}$ , where is the average density, is the mean absolute velocity and ^–1 the temperature of the system. When U(x) is itself changing on a macroscopic scale, i.e. $U_A (x) = U({x mathord{left/ {vphantom {x {sqrt A }}} right. kern-nulldelimiterspace} {sqrt A }})$ , then the limiting process is a spatially dependent diffusion. The stochastic differential equation describing this process is now non-linear, and is particularly simple in Stratonovich form. This lends weight to the belief that heuristics are best done in that form.Dedicated to Frank Spitzer on the occasion of his 60th birthdayWork supported in part by NSF Grants No. PHY 8201708 and No. DMR 81-14726Heisenberg-fellowAlso Department of Physics

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