Complex dynamics in initially separated reaction-diffusion systems

S. Havlin; M. Araujo; Y. Lereah; H. Larralde; A. Shehter; H. E. Stanley; P. Trunfio; B. Vilensky

doi:10.1016/0378-4371(95)00246-4

Complex dynamics in initially separated reaction-diffusion systems

S. Havlin
, M. Araujo
, Y. Lereah
, H. Larralde
, A. Shehter
, H. E. Stanley
, P. Trunfio
, B. Vilensky

Department of Physics - at Bar-Ilan University

Research output: Contribution to journal › Article › peer-review

22 Scopus citations

Abstract

We review recent developments in the study of the diffusion reaction systems of the type A + B → C in which the reactants are initially separated. We consider the case where the A and B particles are initially placed uniformly in Euclidean space at x > 0 and x < 0, respectively. We find that whereas for d ≥ 2 the mean field exponent characterizes the width of the reaction zone, fluctuations are relevant in the one-dimensional system. We present analytical and numerical results for the reaction rate on fractals and percolation systems at criticality.We also study the case where the particles are Lévy flights in d = 1. Finally, we consider experimentally, analytically, and numerically the reaction A + B_static → C, where species A diffuses from a localized source.

Original language	English
Pages (from-to)	1-14
Number of pages	14
Journal	Physica A: Statistical Mechanics and its Applications
Volume	221
Issue number	1-3
DOIs	https://doi.org/10.1016/0378-4371(95)00246-4
State	Published - 15 Nov 1995

Bibliographical note

Funding Information:
We wish to thank F. Leyvraz, S. Redner, H. Taitelbaum and G. H. Weiss for useful discussions, and USA-Israel Binational Foundation for partial support.

Funding

We wish to thank F. Leyvraz, S. Redner, H. Taitelbaum and G. H. Weiss for useful discussions, and USA-Israel Binational Foundation for partial support.

Funders
USA-Israel Binational Foundation

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10.1016/0378-4371(95)00246-4

Cite this

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title = "Complex dynamics in initially separated reaction-diffusion systems",

abstract = "We review recent developments in the study of the diffusion reaction systems of the type A + B → C in which the reactants are initially separated. We consider the case where the A and B particles are initially placed uniformly in Euclidean space at x > 0 and x < 0, respectively. We find that whereas for d ≥ 2 the mean field exponent characterizes the width of the reaction zone, fluctuations are relevant in the one-dimensional system. We present analytical and numerical results for the reaction rate on fractals and percolation systems at criticality.We also study the case where the particles are L{\'e}vy flights in d = 1. Finally, we consider experimentally, analytically, and numerically the reaction A + Bstatic → C, where species A diffuses from a localized source.",

author = "S. Havlin and M. Araujo and Y. Lereah and H. Larralde and A. Shehter and Stanley, \{H. E.\} and P. Trunfio and B. Vilensky",

note = "Funding Information: We wish to thank F. Leyvraz, S. Redner, H. Taitelbaum and G. H. Weiss for useful discussions, and USA-Israel Binational Foundation for partial support.",

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AU - Havlin, S.

AU - Araujo, M.

AU - Lereah, Y.

AU - Larralde, H.

AU - Shehter, A.

AU - Stanley, H. E.

AU - Trunfio, P.

AU - Vilensky, B.

N1 - Funding Information: We wish to thank F. Leyvraz, S. Redner, H. Taitelbaum and G. H. Weiss for useful discussions, and USA-Israel Binational Foundation for partial support.

PY - 1995/11/15

Y1 - 1995/11/15

N2 - We review recent developments in the study of the diffusion reaction systems of the type A + B → C in which the reactants are initially separated. We consider the case where the A and B particles are initially placed uniformly in Euclidean space at x > 0 and x < 0, respectively. We find that whereas for d ≥ 2 the mean field exponent characterizes the width of the reaction zone, fluctuations are relevant in the one-dimensional system. We present analytical and numerical results for the reaction rate on fractals and percolation systems at criticality.We also study the case where the particles are Lévy flights in d = 1. Finally, we consider experimentally, analytically, and numerically the reaction A + Bstatic → C, where species A diffuses from a localized source.

AB - We review recent developments in the study of the diffusion reaction systems of the type A + B → C in which the reactants are initially separated. We consider the case where the A and B particles are initially placed uniformly in Euclidean space at x > 0 and x < 0, respectively. We find that whereas for d ≥ 2 the mean field exponent characterizes the width of the reaction zone, fluctuations are relevant in the one-dimensional system. We present analytical and numerical results for the reaction rate on fractals and percolation systems at criticality.We also study the case where the particles are Lévy flights in d = 1. Finally, we consider experimentally, analytically, and numerically the reaction A + Bstatic → C, where species A diffuses from a localized source.

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Complex dynamics in initially separated reaction-diffusion systems

Abstract

Bibliographical note

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