Interior bubbling solutions for the critical Lin-Ni-Takagi problem in dimension 3

Abstract: We consider the problem of finding positive solutions of the problem $\Delta u - \lambda u +u^5 = 0$ in a bounded, smooth domain $\Omega$ in $\mathbb{R}^3$, under zero Neumann boundary conditions. Here $\lambda$ is a positive number. We analyze the role of Green's function of $-\Delta +\lambda$ in the presence of solutions exhibiting single bubbling behavior at one point of the domain when $\lambda$ is regarded as a parameter. As a special case of our results, we find and characterize a positive value $\lambda_$ such that if $\lambda-\lambda^>0$ is sufficiently small, then this problem is solvable by a solution $u_\lambda$ which blows-up by bubbling at a certain interior point of $\Omega$ as $\lambda \downarrow \lambda_*$.