Phase Separation in the Wake of Moving Fronts: Experiments and Simulations
Abstract
The formation of regular precipitate stripes in the wake of moving chemical reaction-diffusion fronts is investigated. Experiments on the NaOH+CuCl2 reaction in PVA hydrogel yield stripes parallel or slightly oblique to the front that supplies the precursor of the precipitate. The pattern formation was modeled by phase separation described by the Cahn-Hilliard Equation. Computer simulations reproduced the parallel and the oblique striping as well. Stripes perpendicular to the front are unstable and cannot be observed, in complete agree with the experiments. Pattern formation in the wake of quenching fronts has also been investigated computationally, and compared to the previous results. It has been shown that below a certain front speed stripes perpendicular to the front will appear. Moreover, they will bend so that their growing end to be kept perpendicular even if the front changes its direction. This result can be important in designing several nanotechnologica lithographical processes.
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