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The Stefan problem for the Fisher-KPP equation with unbounded initial range (2003.10100v1)

Published 23 Mar 2020 in math.AP

Abstract: We consider the nonlinear Stefan problem $$ \left { \begin{array} {ll} -d \Delta u=a u-b u2 \;\; & \mbox{for } x \in \Omega (t), \; t>0, \ u=0 \mbox{ and } u_t=\mu|\nabla_x u |2 \;\;&\mbox{for } x \in \partial\Omega (t), \; t>0, \ u(0,x)=u_0 (x) \;\; & \mbox{for } x \in \Omega_0, \end{array}\right. $$ where $\Omega(0)=\Omega_0$ is an unbounded smooth domain in $\mathbb RN$, $u_0>0$ in $\Omega_0$ and $u_0$ vanishes on $\partial\Omega_0$. When $\Omega_0$ is bounded, the long-time behavior of this problem has been rather well-understood by \cite{DG1,DG2,DLZ, DMW}. Here we reveal some interesting different behavior for certain unbounded $\Omega_0$. We also give a unified approach for a weak solution theory to this kind of free boundary problems with bounded or unbounded $\Omega_0$.

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