Kinetic Regimes and Cross-Over Times in Many-Particle Reacting Systems
Abstract
We study kinetics of single species reactions ("A+A -> 0") for general local reactivity Q and dynamical exponent z (rms displacement xt ~ t1/z.) For small molecules z=2, whilst z=4,8 for certain polymer systems. For dimensions d above the critical value dc=z, kinetics are always mean field (MF). Below dc, the density nt initially follows MF decay, n0 - nt ~ n02 Q t. A 2-body diffusion-controlled regime follows for strongly reactive systems (Q>Qstar ~ n0(z-d)/d) with n0 - nt ~ n02 xtd. For Q<Qstar, MF kinetics persist, with nt ~ 1/Qt. In all cases nt ~ 1/xtd at the longest times. Our analysis avoids decoupling approximations by instead postulating weak physically motivated bounds on correlation functions.
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