# On the lifespan of classical solutions to a non-local porous medium   problem with nonlinear boundary conditions

**Authors:** Monica Marras, Nicola Pintus, Giuseppe Viglialoro

arXiv: 1904.10747 · 2019-04-25

## TL;DR

This paper investigates the lifespan of solutions to a non-local porous medium equation with nonlinear boundary conditions, providing bounds and criteria for solution blow-up and global existence based on parameters and initial data.

## Contribution

It offers new bounds on the lifespan of classical solutions and establishes conditions for global existence or blow-up in a non-local porous medium problem with nonlinear boundary conditions.

## Key findings

- Lower bounds for blow-up time in 2D and 3D when p>q.
- Global existence criteria for solutions when p<q.
- Analysis of solution behavior based on parameters m, p, q, and initial data.

## Abstract

In this paper we analyze the porous medium equation \begin{equation}\label{ProblemAbstract} \tag{$\Diamond$} %\begin{cases} u_t=\Delta u^m + a\io u^p-b u^q -c\lvert\nabla\sqrt{u}\rvert^2 \quad \textrm{in}\quad \Omega \times I,%\\ %u_\nu-g(u)=0 & \textrm{on}\; \partial \Omega, t>0,\\ %u({\bf x},0)=u_0({\bf x})&{\bf x} \in \Omega,\\ %\end{cases} \end{equation} where $\Omega$ is a bounded and smooth domain of $\R^N$, with $N\geq 1$, and $I= [0,t^*)$ is the maximal interval of existence for $u$. The constants $a,b,c$ are positive, $m,p,q$ proper real numbers larger than 1 and the equation is complemented with nonlinear boundary conditions involving the outward normal derivative of $u$. Under some hypothesis on the data, including intrinsic relations between $m,p$ and $q$, and assuming that for some positive and sufficiently regular function $u_0(\nx)$ the Initial Boundary Value Problem (IBVP) associated to \eqref{ProblemAbstract} possesses a positive classical solution $u=u(\nx,t)$ on $\Omega \times I$: \begin{itemize} \item [$\triangleright$] when $p>q$ and in 2- and 3-dimensional domains, we determine a \textit{lower bound of} $t^*$ for those $u$ becoming unbounded in $L^{m(p-1)}(\Omega)$ at such $t^*$; \item [$\triangleright$] when $p<q$ and in $N$-dimensional settings, we establish a \textit{global existence criterion} for $u$. \end{itemize}

## Full text

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## References

35 references — full list in the complete paper: https://tomesphere.com/paper/1904.10747/full.md

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Source: https://tomesphere.com/paper/1904.10747