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Dynamical Correlations among Vicious Random Walkers

Statistical Mechanics 2009-11-07 v1 Soft Condensed Matter

Abstract

Nonintersecting motion of Brownian particles in one dimension is studied. The system is constructed as the diffusion scaling limit of Fisher's vicious random walk. N particles start from the origin at time t=0 and then undergo mutually avoiding Brownian motion until a finite time t=T. In the short time limit tTt \ll T, the particle distribution is asymptotically described by Gaussian Unitary Ensemble (GUE) of random matrices. At the end time t = T, it is identical to that of Gaussian Orthogonal Ensemble (GOE). The Brownian motion is generally described by the dynamical correlations among particles at many times t1,t2,...,tMt_1,t_2,..., t_M between t=0 and t=T. We show that the most general dynamical correlations among arbitrary number of particles at arbitrary number of times are written in the forms of quaternion determinants. Asymptotic forms of the correlations in the limit NN \to \infty are evaluated and a discontinuous transition of the universality class from GUE to GOE is observed.

Keywords

Cite

@article{arxiv.cond-mat/0202068,
  title  = {Dynamical Correlations among Vicious Random Walkers},
  author = {Taro Nagao and Makoto Katori and Hideki Tanemura},
  journal= {arXiv preprint arXiv:cond-mat/0202068},
  year   = {2009}
}

Comments

REVTeX3.1, 4 pages, no figure