Disorder-Induced Anomalous Kinetics in the $A+A \to \emptyset$ Reaction

B. P. Lee; B. P. Lee; B. P. Lee; D. R. Nelson; D. S. Fisher; D. Toussaint; J. Honkonen; J. Honkonen; J. P. Bouchaud; J. P. Bouchaud; Jeong-Man Park; K. Kang; K. Kang; L. Frachebourg; L. Peliti; M. Droz; M. Eiswirth; M. Graham; M. W. Deem; Michael W. Deem; S. Jakubith; S. É. Derkachov; S. É. Derkachov; V. E. Kravtsov; V. E. Kravtsov

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Disorder-Induced Anomalous Kinetics in the $A+A \to \emptyset$ Reaction

Authors: B. P. Lee
B. P. Lee
B. P. Lee
D. R. Nelson
D. S. Fisher
D. Toussaint
J. Honkonen
J. Honkonen
J. P. Bouchaud
J. P. Bouchaud
Jeong-Man Park
K. Kang
K. Kang
L. Frachebourg
L. Peliti
M. Droz
M. Eiswirth
M. Graham
M. W. Deem
Michael W. Deem
S. Jakubith
S. É. Derkachov
S. É. Derkachov
V. E. Kravtsov
V. E. Kravtsov
Publication date: 11 February 1998
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We address the two-dimensional bimolecular annihilation reaction

A + A \to \emptyset

in the presence of random impurities. Impurities with sufficiently long-ranged interaction energies are known to lead to anomalous diffusion,

\sim t^{1-\delta}

, in the absence of reaction. Applying renormalization group theory to a field theoretic description of this reaction, we find that this disorder also leads to anomalous kinetics in the long time limit:

c(t) \sim t^{\delta -1}

. This kinetics results because the disorder forces the system into the (sub)diffusion controlled regime, in which the kinetics must become anomalous.Comment: REVTEX, 4 pages. More discussion added. To appear in Phys. Rev. E (March, 1998

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Last time updated on 03/01/2020

Disorder-Induced Anomalous Kinetics in the A+A→∅A+A \to \emptysetA+A→∅ Reaction

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Disorder-Induced Anomalous Kinetics in the $A+A \to \emptyset$ Reaction