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A generalized solution concept for the Keller-Segel system with logarithmic sensitivity: Global solvability for large nonradial data (1701.07391v1)

Published 25 Jan 2017 in math.AP

Abstract: The chemotaxis system [ \left{ \begin{array}{l} u_t = \Delta u - \chi\nabla \cdot (\frac{u}{v}\nabla v), v_t=\Delta v - v+u, \end{array} \right. ] is considered in a bounded domain $\Omega\subset \mathbb{R}n$ with smooth boundary, where $\chi>0$. An apparently novel type of generalized solution framework is introduced within which an extension of previously known ranges for the key parameter $\chi$ with regard to global solvability is achieved. In particular, it is shown that under the hypothesis that[ \chi < \left{ \begin{array}{ll} \infty \qquad & \mbox{if } n=2, \sqrt{8} \qquad & \mbox{if } n=3, \frac{n}{n-2} \qquad & \mbox{if } n\ge 4, \end{array} \right. ] for all initial data satisfying suitable assumptions on regularity and positivity, an associated no-flux initial-boundary value problem admits a globally defined generalized solution. This solution inter alia has the property that [ u\in L1_{loc}(\bar\Omega\times [0,\infty)). ]

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