Homogenization of a Dirichlet semilinear elliptic problem with a strong singularity at u=0 in a domain with many small holes

Abstract

We perform the homogenization of the semilinear elliptic problem equation* cases u ≥ 0 & in \; ,\\ - div \,A(x) D u = F(x,u) & in \; ,\\ u = 0 & on \; ∂ .\\ cases equation* In this problem F(x,s) is a Carath\'eodory function such that 0 ≤ F(x,s) ≤ h(x)/(s) a.e. x∈ for every s > 0, with h in some Lr() and a C1([0, +∞[) function such that (0) = 0 and '(s) > 0 for every s > 0. On the other hand the open sets are obtained by removing many small holes from a fixed open set in such a way that a "strange term" μ u0 appears in the limit equation in the case where the function F(x,s) depends only on x. We already treated this problem in the case of a "mild singularity", namely in the case where the function F(x,s) satisfies 0 ≤ F(x,s) ≤ h(x) ( 1s + 1). In this case the solution u to the problem belongs to H10 () and its definition is a "natural" and rather usual one. In the general case where F(x,s) exhibits a "strong singularity" at u = 0, which is the purpose of the present paper, the solution u to the problem only belongs to H loc1() but in general does not belongs to H10 () any more, even if u vanishes on ∂ in some sense. Therefore we introduced a new notion of solution (in the spirit of the solutions defined by transposition) for problems with a strong singularity. This definition allowed us to obtain existence, stability and uniqueness results.