Fluctuation-dominated kinetics under stirring

A. A. Ovchinnikov; A. Blumen; A. Careta; A. Careta; A. Crisanti; A. S. Monin; C. R. Doering; D. Toussaint; F. Leyvraz; F. Sagués; G. Zumofen; H. Schnörer; I. M. Sokolov; I. M. Sokolov; I. M. Sokolov; I. M. Sokolov; I. M. Sokolov; J. M. Ottino; J. M. Sancho; K. Kang; M. J. Howard; P. Argyrakis; P. Argyrakis; R. Reigada; R. Reigada; S. Middleman; V. N. Kuzovkov

research

Fluctuation-dominated kinetics under stirring

Authors: A. A. Ovchinnikov
A. Blumen
A. Careta
A. Careta
A. Crisanti
A. S. Monin
C. R. Doering
D. Toussaint
F. Leyvraz
F. Sagués
G. Zumofen
H. Schnörer
I. M. Sokolov
I. M. Sokolov
I. M. Sokolov
I. M. Sokolov
I. M. Sokolov
J. M. Ottino
J. M. Sancho
K. Kang
M. J. Howard
P. Argyrakis
P. Argyrakis
R. Reigada
R. Reigada
S. Middleman
V. N. Kuzovkov
Publication date: 1 January 1997
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We investigate the effects of stirring on the kinetics of the A + B → 0 reaction under stoichiometrical conditions in 2D. We consider both a steady eddy-lattice flow and a random flow mimicking turbulence. In both situations complex decay patterns are detected. Only an intermediate stage of the reaction is dominated by mixing. The long-time behavior shows fluctuation-dominated kinetics, c ( t ) ∝ t − 1 / 2 , governed by effective diffusion. For the case of an eddy-lattice flow a very slow intermediate regime emerges, c ( t ) ∝ t − 1 / 4 , which is associated with the closed topology of flow lines

Similar works

Full text

Open in the Core reader

Download PDF

Available Versions

Diposit Digital de la Universitat de Barcelona

oai:diposit.ub.edu:2445/12788

Last time updated on 09/09/2013