Quantitative stratification of F-subharmonic functions

Abstract

In this paper, we study the singular sets of F-subharmonic functions u: B2(0n)→R, where F is a subequation. The singular set S(u)⊂ B2(0n) has a stratification S0(u)⊂S1(u)⊂·s⊂Sk(u)⊂·s⊂S(u), where x∈Sk(u) if no tangent function to u at x is (k+1)-homogeneous. We define the quantitative stratification Sη,rk(u) and Sηk(u)=rSη,rk(u). When homogeneity of tangents holds for F, we prove that dimHSk(u)≤ k and S(u)=Sn-p(u), where p is the Riesz characteristic of F. And for the top quantitative stratification Sηn-p(u), we have the Minkowski estimate Vol(Br(Sηn-p(u) B1(0n)))≤ Cη-1(∫B1+r(0n) u)rp. When uniqueness of tangents holds for F, we show that Sηk(u) is k-rectifiable, which implies Sk(u) is k-rectifiable. When strong uniqueness of tangents holds for F, we introduce the monotonicity condition and the notion of F-energy. By using refined covering argument, we obtain a definite upper bound on the number of \(u,x)≥ c\ for c>0, where (u,x) is the density of F-subharmonic function u at x. Geometrically determined subequations F(G) is a very important kind of subequation (when p=2, homogeneity of tangents holds for F(G); when p>2, uniqueness of tangents holds for F(G)). By introducing the notion of G-energy and using quantitative differentation argument, we obtain the Minkowski estimate of quantitative stratification Vol(Br(Sη,rk(u)) B1(0n))≤ Crn-k-η.