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On Lane-Emden systems with singular nonlinearities and applications to MEMS

Published 9 Jan 2019 in math.AP | (1901.02728v1)

Abstract: In this paper we analyse the Lane-Emden system \begin{equation} \left{ \begin{alignedat}{3} -\Delta u = & \, \frac{\lambda f(x)}{(1-v)2} & \quad \text{in} & \quad\Omega\ -\Delta v = & \, \frac{\mu g(x)}{(1-u)2} & \quad \text{in} & \quad\Omega\ 0\leq u &, v < 1 & \quad \text{in} & \quad \Omega\ u = v & = \, 0 & \text{on} & \quad \partial\Omega\ \end{alignedat} \right.\tag{$S_{\lambda, \mu}$} \end{equation} where $\lambda$ and $\mu$ are positive parameters and $\Omega$ is a smooth bounded domain of $\mathbb{R}N$ $( N \geq 1)$. Here we prove the existence of a critical curve $\Gamma$ which splits the positive quadrant of the $(\lambda,\mu)\text{-plane}$ into two disjoint sets $\mathcal{O}1$ and $\mathcal{O}_2$ such that the problem $(S{\lambda, \mu})$ has a smooth minimal stable solution $(u_\lambda,v_\mu)$ in $\mathcal{O}1$, while for $(\lambda,\mu)\in\mathcal{O}_2$ there are no solutions of any kind. We also establish upper and lower estimates for the critical curve $\Gamma$ and regularity results on this curve if $N\leq 7$. Our proof is based on a delicate combination involving maximum principle and $Lp$ estimates for semi-stable solutions of $(S{\lambda, \mu}$).

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