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Elliptic Equations with Critical Growth and a Large Set of Boundary Singularities

arXiv:math/0508348

Abstract

We solve variationally certain equations of stellar dynamics of the form $-\sum_i\partial_{ii} u(x) =\frac{|u|^{p-2}u(x)}{{\rm dist} (x,{\mathcal A} )^s}$ in a domain $Ω$ of $\rn$, where ${\mathcal A} $ is a proper linear subspace of $\rn$. Existence problems are related to the question of attainability of the best constant in the following recent inequality of Badiale-Tarantello [1]: $$0<μ_{s,¶}(Ω)=\inf{\int_Ω|\nabla u|^2 dx; u\in \huno \hbox{and}\int_Ω\frac{|u(x)|^{\crit(s)}}{|π(x)|^s} dx=1}$$ where $0<s<2$, $\crit(s)=\frac{2(n-s)}{n-2}$ and where $π$ is the orthogonal projection on a linear space $¶$, where $\hbox{dim}_{\rr}¶\geq 2$. We investigate this question and how it depends on the relative position of the subspace $\Porth$, the orthogonal of $¶$, with respect to the domain $Ω$ as well as on the curvature of the boundary $\partialΩ$ at its points of intersection with $\Porth $.

27 pages. Updated versions --if any-- of this author's papers can be downloaded at http://www.pims.math.ca/~nassif/