Applied Mathematics Colloquia by Kevin Zumbrun: Convective Turing Bifurcation with Conservation Laws, and Applications to Modern Biomorphology

Speaker: Kevin Zumbrun, distinguished professor of mathematics, Indiana University

Title: Convective Turing Bifurcation with Conservation Laws, and Applications to Modern Biomorphology

Abstract: Modern biomorphology models such as Murray-Oster and Scianna-Bell-Preziosi involve pattern formation in systems with mechanical/hydrodynamical effects taking the form of convection-reaction-diffusion models with conservation laws. Here, extending previous work of Matthews-Cox and Häcker-Schneider-Zimmerman in pattern formation with conservation laws, and of Eckhaus, Mielke, and Schneider on stability of Turing patterns in reaction diffusion models, we investigate diffusive stability of Turing patterns for convection-reaction-diffusion models with conservation laws. Formal multiscale expansion yields a singular system of amplitude equations coupling Complex Ginzburg Landau with a singular convection-diffusion system, similar to partially coupled systems found by Häcker-Schneider-Zimmerman in the context of thin film flow, but with the singular convection part now fully engaged in long term stability and behavior rather than transient as in the (triangular) partially coupled case.

Applied Mathematics Colloquium