AIMS Mathematics (Nov 2023)
Analysis of traveling fronts for chemotaxis model with the nonlinear degenerate viscosity
Abstract
In this paper, we are interested in chemotaxis model with nonlinear degenerate viscosity under the assumptions of $ \beta = 0 $ (without the effect of growth rate) and $ u_+ = 0 $. We need the weighted function defined in Remark 1 to handle the singularity problem. The higher-order terms of this paper are significant due to the nonlinear degenerate viscosity. Therefore, the following higher-order estimate is introduced to handle the energy estimate: $ \begin{equation*} \begin{split} &U^{m-2} = \left( \frac{1}{U} \right)^{2-m}\leq Kw(z)\leq \frac{Cw(z)}{U}, \;\text{if}\;0<m<2, \\ &U^{m-2}\leq Lu_-\leq\frac{Cu_-}{U}, \;\text{if}\;m\geq 2, \end{split} \end{equation*} $ where $ C = max\left\{ K, L \right\} = max\left\{ \frac{a}{m-a}, (m+a)^m \right\} $ for $ a > 0 $ and $ m > a $, and $ w(z) $ is the weighted function. Then we show that the traveling waves are stable under the appropriate perturbations. The proof is based on a Cole-Hopf transformation and weighted energy estimates.
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