Zero-full law for well approximable sets in missing digit sets

Abstract

Let b ≥ 3 be an integer and C(b,D) be the set of real numbers in [0,1] whose base b expansion only consists of digits in a set D ⊂eq \0,...,b-1\. We study how close can numbers in C(b,D) be approximated by rational numbers with denominators being powers of some integer t and obtain a zero-full law for its Hausdorff measure in several circumstances. When b and t are multiplicatively dependent, our results correct an error of Levesley, Salp and Velani (Math. Ann., 338:97-118, 2007) and generalize their theorem. When b and t are multiplicatively independent but have the same prime divisors, we obtain a partial result on the Hausdorff measure and bounds for the Hausdorff dimension, which are close to the multiplicatively dependent case. Based on these results, several conjectures are proposed.