Physics – Condensed Matter – Statistical Mechanics
Scientific paper
2009-07-03
Phys. Rev. E 80, 051103 (2009)
Physics
Condensed Matter
Statistical Mechanics
13 pages, 2 figures
Scientific paper
10.1103/PhysRevE.80.051103
We solve a non-equilibrium statistical mechanics problem exactly, namely, the single-file dynamics of N hard-core interacting particles (the particles cannot pass each other) of size \Delta diffusing in a one dimensional system of finite length L with reflecting boundaries at the ends. We obtain an exact expression for the conditional probability density function P_T(y_T,t|y_{T,0}) that a tagged particle T (T=1,...,N) is at position y_T at time t given that it at time t=0 was at position y_{T,0}. Going beyond previous studies, we consider the asymptotic limit of large N, maintaining L finite, using a non-standard asymptotic technique. We derive an exact expression for P_T(y_T,t|y_{T,0}) for a a tagged particle located roughly in the middle of the system, from which we find that there are three time regimes of interest for finite-sized systems: (A) For times much smaller than the collision time t<< t_coll=1/(\rho^2D), where \rho=N/L is the particle concentration and D the diffusion constant for each particle, the tagged particle undergoes normal diffusion; (B) for times much larger than the collision time t>> t_coll but times smaller than the equilibrium time t<< t_eq=L^2/D we find a single-file regime where P_T(y_T,t|y_{T,0}) is a Gaussian with a mean square displacement scaling as t^{1/2}; (C) For times longer than the equilibrium time $t>> t_eq, P_T(y_T,t|y_{T,0}) approaches a polynomial-type equilibrium probability density function.
Ambjornsson Tobias
Lizana Ludvig
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