中文

Exponents appearing in heterogeneous reaction-diffusion models in one dimension

凝聚态物理 2009-10-28 v1

摘要

We study the following 1D two-species reaction diffusion model : there is a small concentration of B-particles with diffusion constant DBD_B in an homogenous background of W-particles with diffusion constant DWD_W; two W-particles of the majority species either coagulate (W+WWW+W \longrightarrow W) or annihilate (W+WW+W \longrightarrow \emptyset) with the respective probabilities pc=(q2)/(q1) p_c=(q-2)/(q-1) and pa=1/(q1)p_a=1/(q-1); a B-particle and a W-particle annihilate (W+BW+B \longrightarrow \emptyset) with probability 1. The exponent θ(q,λ=DB/DW)\theta(q,\lambda=D_B/D_W) describing the asymptotic time decay of the minority B-species concentration can be viewed as a generalization of the exponent of persistent spins in the zero-temperature Glauber dynamics of the 1D qq-state Potts model starting from a random initial condition : the W-particles represent domain walls, and the exponent θ(q,λ)\theta(q,\lambda) characterizes the time decay of the probability that a diffusive "spectator" does not meet a domain wall up to time tt. We extend the methods introduced by Derrida, Hakim and Pasquier ({\em Phys. Rev. Lett.} {\bf 75} 751 (1995); Saclay preprint T96/013, to appear in {\em J. Stat. Phys.} (1996)) for the problem of persistent spins, to compute the exponent θ(q,λ)\theta(q,\lambda) in perturbation at first order in (q1)(q-1) for arbitrary λ\lambda and at first order in λ\lambda for arbitrary qq.

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引用

@article{arxiv.cond-mat/9607030,
  title  = {Exponents appearing in heterogeneous reaction-diffusion models in one dimension},
  author = {Cécile Monthus},
  journal= {arXiv preprint arXiv:cond-mat/9607030},
  year   = {2009}
}

备注

29 pages. The three figures are not included, but are available upon request