Large-Scale Simulations of Diffusion-Limited n-Species Annihilation
Abstract
We present results from computer simulations for diffusion-limited n-species annihilation, Ai+Aj0 (i,j=1,2,...,n;i≠ j), on the line, for lattices of up to 228 sites, and where the process proceeds to completion (no further reactions possible), involving up to 1015 time steps. These enormous simulations are made possible by the renormalized reaction-cell method (RRC). Our results suggest that the concentration decay exponent for n species is (n)=(n-1)/2n instead of (2n-3)/(4n-4), as previously believed, and are in agreement with recent theoretical arguments tauber. We also propose a scaling relation for , the correction-to-scaling exponent for the concentration decay; c(t) t-(A+Bt-).
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