Stages of relaxation of patterns and the role of stochasticity in the final stage

Shaowen Hu,Daniel I Goldman,David K Hoffman,Harry L Swinney,Donald J Kouri,Gemunu H Gunaratne

doi:10.1088/0951-7715/17/4/021

Stages of relaxation of patterns and the role of stochasticity in the final stage

Shaowen Hu, Daniel I Goldman + Show 4 more

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https://doi.org/10.1088/0951-7715/17/4/021

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Journal: Nonlinearity	Publication Date: May 21, 2004
Citations: 7

Affiliation: The University of Texas at Austin, Iowa State University, Ames Laboratory, University of Houston

#Final Stage #Nonlinear Saturation + Show 8 more

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Abstract

The disorder function formalism (Gunaratne et al 1998 Phys. Rev. E 57 5146) is used to show that pattern relaxation in an experiment on a vibrating layer of brass beads occurs in three distinct stages. During stage I, all length scales associated with moments of the disorder grow at a single universal rate, given by L(t) ∼ t0.5. In stage II, pattern evolution is non-universal and includes a range of growth indices. Relaxation in the final stage is characterized by a single, non-universal index. We use analysis of patterns from the Swift–Hohenberg equation to argue that mechanisms that underlie the observed pattern evolution are linear spatio-temporal dynamics (stage I), nonlinear saturation (stage II), and stochasticity (stage III).

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