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Ordering of Random Walks: The Leader and the Laggard

arXiv:cond-mat/0210501 · doi:10.1088/0305-4470/36/7/301

Abstract

We investigate two complementary problems related to maintaining the relative positions of N random walks on the line: (i) the leader problem, that is, the probability {\cal L}_N(t) that the leftmost particle remains the leftmost as a function of time and (ii) the laggard problem, the probability {\cal R}_N(t) that the rightmost particle never becomes the leftmost. We map these ordering problems onto an equivalent (N-1)-dimensional electrostatic problem. From this construction we obtain a very accurate estimate for {\cal L}_N(t) for N=4, the first case that is not exactly soluble: {\cal L}_4(t) ~ t^{-β_4}, with β_4=0.91342(8). The probability of being the laggard also decays algebraically, {\cal R}_N(t) ~ t^{-γ_N}; we derive γ_2=1/2, γ_3=3/8, and argue that γ_N--> ln N/N$ as N-->oo.

7 pages, 4 figures, 2-column revtex 4 format