Nodal Sets for "Broken" Quasilinear PDEs

Abstract

We study the local behavior of the nodal sets of the solutions to elliptic quasilinear equations with nonlinear conductivity part, equation* div(As(x,u)∇ u)=div f(x), equation* where As(x,u) has "broken" derivatives of order s≥ 0, such as equation* As(x,u) = a(x) + b(x)(u+)s, equation* with (u+)0 being understood as the characteristic function on \u>0\. The vector f(x) is assumed to be Cα in case s=0, and C1,α (or higher) in case s>0. Using geometric methods, we prove almost complete results (in analogy with standard PDEs) concerning the behavior of the nodal sets. More exactly, we show that the nodal sets, where solutions have (linear) nondegeneracy, are locally smooth graphs. Degenerate points are shown to have structures that follow the lines of arguments as that of the nodal sets for harmonic functions, and general PDEs.