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Pattern Formation by Boundary Forcing in Convectively Unstable, Oscillatory Media With and Without Differential Transport | Patrick N. McGraw
; Michael Menzinger
; | Date: |
13 Oct 2004 | Subject: | Pattern Formation and Solitons | nlin.PS | Abstract: | Motivated by recent experiments and models of biological segmentation, we analyze the exicitation of pattern-forming instabilities of convectively unstable reaction-diffusion-advection (RDA) systems, occuring by means of constant or periodic forcing at the upstream boundary. Such boundary-controlled pattern selection is a generalization of the flow-distributed oscillation (FDO) mechanism that can include Turing or differential flow instability (DIFI) modes. Our goal is to clarify the relationships among these mechanisms in the general case where there is differential flow as well as differential diffusion. We do so by analyzing the dispersion relation for linear perturbations and showing how its solutions are affected by differential transport. We find a close relationship between DIFI and FDO, while the Turing mechanism gives rise to a distinct set of unstable modes. Finally, we illustrate the relevance of the dispersion relations using nonlinear simulations and we discuss the experimental implications of our results. | Source: | arXiv, nlin.PS/0410017 | Other source: | [GID 706306] pmid16196687 | Services: | Forum | Review | PDF | Favorites |
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