Diophantine approximations on random fractals

Abstract

We show that fractal percolation sets in Rd almost surely intersect every hyperplane absolutely winning (HAW) set with full Hausdorff dimension. In particular, if E⊂Rd is a realization of a fractal percolation process, then almost surely (conditioned on E≠), for every countable collection (fi)i∈N of C1 diffeomorphisms of Rd, H(E(i∈Nfi(BAd)))=H(E), where BAd is the set of badly approximable vectors in Rd. We show this by proving that E almost surely contains hyperplane diffuse subsets which are Ahlfors-regular with dimensions arbitrarily close to H(E). We achieve this by analyzing Galton-Watson trees and showing that they almost surely contain appropriate subtrees whose projections to Rd yield the aforementioned subsets of E. This method allows us to obtain a more general result by projecting the Galton-Watson trees against any similarity IFS whose attractor is not contained in a single affine hyperplane. Thus our general result relates to a broader class of random fractals than fractal percolation.