Group invariant solutions of certain partial differential equations
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Let $M$ be a complete Riemannian manifold and $G$ a Lie subgroup of the isometry group of $M$ acting freely and properly on $M.$ We study the Dirichlet Problem \begin{align*} \operatorname{div}\left( \frac{a\left( \left\Vert \nabla u\right\Vert \right) }{\left\Vert \nabla u\right\Vert }\nabla u\right) & =0\text{ in }\Omega\\ u|\partial\Omega & =\varphi \end{align*} where $\Omega$ is a $G-$invariant domain of $C^{2,\alpha}$ class in $M$ and $\varphi\in C^{0}\left( \partial\overline{\Omega}\right) $ a $G-$invariant function. Two classical PDE's are included in this family: the $p-$Laplacian $(a(s)=s^{p-1},$ $p>1)$ and the minimal surface equation $(a(s)=s/\sqrt {1+s^{2}}).$ Our motivation is to present a method in studying $G$-invariant solutions for noncompact Lie groups which allows the reduction of the Dirichlet problem on unbounded domains to one on bounded domains.
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