Renormalization Group Study of the A+B->0 Diffusion-Limited Reaction

Abstract

The A + B 0 diffusion-limited reaction, with equal initial densities a(0) = b(0) = n0, is studied by means of a field-theoretic renormalization group formulation of the problem. For dimension d > 2 an effective theory is derived, from which the density and correlation functions can be calculated. We find the density decays in time as a,b C(Dt)-d/4 for d < 4, with = n0-C n0d/2 + …, where C is a universal constant, and C is non-universal. The calculation is extended to the case of unequal diffusion constants DA ≠ DB, resulting in a new amplitude but the same exponent. For d 2 a controlled calculation is not possible, but a heuristic argument is presented that the results above give at least the leading term in an ε = 2-d expansion. Finally, we address reaction zones formed in the steady-state by opposing currents of A and B particles, and derive scaling properties.

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