Raffaele Folino, Luis Fernando Lopez Rios, M. Strani
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On a generalized Cahn--Hilliard model with $p$-Laplacian
A generalized Cahn-Hilliard model in a bounded interval of the real line with no-flux boundary conditions is considered. The label"generalized"refers to the fact that we consider a concentration dependent mobility, the $p$-Laplace operator with $p>1$ and a double well potential of the form $F(u)=\frac{1}{2\theta}|1-u^2|^\theta$, with $\theta>1$; these terms replace, respectively, the constant mobility, the linear Laplace operator and the $C^2$ potential satisfying $F"(\pm1)>0$, which are typical of the standard Cahn-Hilliard model. After investigating the associated stationary problem and highlighting the differences with the standard results, we focus the attention on the long time dynamics of solutions when $\theta\geq p>1$. In the $critical$ $\theta=p>1$, we prove $exponentially$ $slow$ $motion$ of profiles with a transition layer structure, thus extending the well know results of the standard model, where $\theta=p=2$; conversely, in the $supercritical$ case $\theta>p>1$, we prove $algebraic$ $slow$ $motion$ of layered profiles.
期刊介绍:
Advances in Differential Equations will publish carefully selected, longer research papers on mathematical aspects of differential equations and on applications of the mathematical theory to issues arising in the sciences and in engineering. Papers submitted to this journal should be correct, new and non-trivial. Emphasis will be placed on papers that are judged to be specially timely, and of interest to a substantial number of mathematicians working in this area.
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