Random Martingales and localization of maximal inequalities

Abstract

Let (X,d,μ) be a metric measure space. For ≠ R⊂eq (0,∞) consider the Hardy-Littlewood maximal operator MR f(x) def= r ∈ R 1μ(B(x,r)) ∫B(x,r) |f| dμ. We show that if there is an n>1 such that one has the "microdoubling condition" μ(B(x,(1+1n)r)) μ(B(x,r)) for all x∈ X and r>0, then the weak (1,1) norm of MR has the following localization property: \|MR\|L1(X) L1,∞(X) r>0 \|MR [r,nr]\|L1(X) L1,∞(X). An immediate consequence is that if (X,d,μ) is Ahlfors-David n-regular then the weak (1,1) norm of MR is n n, generalizing a result of Stein and Str\"omberg. We show that this bound is sharp, by constructing a metric measure space (X,d,μ) that is Ahlfors-David n-regular, for which the weak (1,1) norm of M(0,∞) is n n. The localization property of MR is proved by assigning to each f∈ L1(X) a distribution over random martingales for which the associated (random) Doob maximal inequality controls the weak (1,1) inequality for MR.