English

Persistence in the One-Dimensional A+B -> 0 Reaction-Diffusion Model

Statistical Mechanics 2009-11-07 v1

Abstract

The persistence properties of a set of random walkers obeying the A+B -> 0 reaction, with equal initial density of particles and homogeneous initial conditions, is studied using two definitions of persistence. The probability, P(t), that an annihilation process has not occurred at a given site has the asymptotic form P(t)>const+tθP(t) -> const + t^{-\theta}, where θ\theta is the persistence exponent (``type I persistence''). We argue that, for a density of particles ρ>>1\rho >> 1, this non-trivial exponent is identical to that governing the persistence properties of the one-dimensional diffusion equation, where θ0.1207\theta \approx 0.1207. In the case of an initially low density, ρ0<<1\rho_0 << 1, we find θ1/4\theta \approx 1/4 asymptotically. The probability that a site remains unvisited by any random walker (``type II persistence'') is also investigated and found to decay with a stretched exponential form, P(t)exp(constρ01/2t1/4)P(t) \sim \exp(-const \rho_0^{1/2}t^{1/4}), provided ρ0<<1\rho_0 << 1. A heuristic argument for this behavior, based on an exactly solvable toy model, is presented.

Keywords

Cite

@article{arxiv.cond-mat/0105074,
  title  = {Persistence in the One-Dimensional A+B -> 0 Reaction-Diffusion Model},
  author = {S. J. O'Donoghue and A. J. Bray},
  journal= {arXiv preprint arXiv:cond-mat/0105074},
  year   = {2009}
}

Comments

11 RevTeX pages, 19 EPS figures