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Fluctuation-induced diffusive instabilities

Nature volume 394pages 556–558 (1998)Cite this article

Abstract

The formation of complex patterns in many non-equilibrium systems, ranging from solidifying alloys to multiphase flow1, nonlinear chemical reactions2 and the growth of bacterial colonies3,4, involves the propagation of an interface that is unstable to diffusive motion. Most existing theoretical treatments of diffusive instabilities are based on mean-field approaches, such as the use of reaction–diffusion equations, that neglect the role of fluctuations. Here we show that finite fluctuations in particle number can be essential for such an instability to occur. We study, both analytically and with computer simulations, the planar interface separating different species in the simple two-component reaction A+ B → 2A (which can also serve as a simple model of bacterial growth in the presence of a nutrient). The interface displays markedly different dynamics within the reaction–diffusion treatment from that when fluctuations are taken into account. Our findings suggest that fluctuations can provide a new and general pattern-forming mechanism in non-equilibrium growth.

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Figure 1: Results of stability analysis.
Figure 2: Results of a simulation of the reaction–diffusion equations with D = 10 and ε= 0.25.
Figure 3: Results of a simulation of the microscopic reaction model.

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Acknowledgements

We thank L. Sander for discussions.

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Authors and Affiliations

  1. Minerva Center and Department of Physics, Bar-Ilan University, Ramat Gan, Israel

    David A. Kessler

  2. Department of Physics, University of California, San Diego, La Jolla, 92093-0319, California, USA

    Herbert Levine

Authors
  1. David A. Kessler
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  2. Herbert Levine
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Kessler, D., Levine, H. Fluctuation-induced diffusive instabilities. Nature 394, 556–558 (1998). https://doi.org/10.1038/29020

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