English

Spatial distribution of persistent sites

Statistical Mechanics 2009-10-31 v1

Abstract

We study the distribution of persistent sites (sites unvisited by particles AA) in one dimensional A+AA+A\to\emptyset reaction-diffusion model. We define the {\it empty intervals} as the separations between adjacent persistent sites, and study their size distribution n(k,t)n(k,t) as a function of interval length kk and time tt. The decay of persistence is the process of irreversible coalescence of these empty intervals, which we study analytically under the Independent Interval Approximation (IIA). Physical considerations suggest that the asymptotic solution is given by the dynamic scaling form n(k,t)=s2f(k/s)n(k,t)=s^{-2}f(k/s) with the average interval size st1/2s\sim t^{1/2}. We show under the IIA that the scaling function f(x)xτf(x)\sim x^{-\tau} as x0x\to 0 and decays exponentially at large xx. The exponent τ\tau is related to the persistence exponent θ\theta through the scaling relation τ=2(1θ)\tau=2(1-\theta). We compare these predictions with the results of numerical simulations. We determine the two-point correlation function C(r,t)C(r,t) under the IIA. We find that for rsr\ll s, C(r,t)rαC(r,t)\sim r^{-\alpha} where α=2τ\alpha=2-\tau, in agreement with our earlier numerical results.

Keywords

Cite

@article{arxiv.cond-mat/0003203,
  title  = {Spatial distribution of persistent sites},
  author = {G. Manoj and P. Ray},
  journal= {arXiv preprint arXiv:cond-mat/0003203},
  year   = {2009}
}

Comments

15 pages in RevTeX, 5 postscript figures