Relative bifurcation sets and the local dimension of univoque bases

Abstract

Fix an alphabet A=\0,1,…,M\ with M∈N. The univoque set U of bases q∈(1,M+1) in which the number 1 has a unique expansion over the alphabet A has been well studied. It has Lebesgue measure zero but Hausdorff dimension one. This paper investigates how the set U is distributed over the interval (1,M+1) by determining the limit f(q):=δ 0H(U(q-δ,q+δ)) for all q∈(1,M+1). We show in particular that f(q)>0 if and only if q∈UC, where C is an uncountable set of Hausdorff dimension zero, and f is continuous at those (and only those) points where it vanishes. Furthermore, we introduce a countable family of pairwise disjoint subsets of U called relative bifurcation sets, and use them to give an explicit expression for the Hausdorff dimension of the intersection of U with any interval, answering a question of Kalle et al.~[ arXiv:1612.07982; to appear in Acta Arithmetica, 2018]. Finally, the methods developed in this paper are used to give a complete answer to a question of the first author [ Adv. Math., 308:575--598, 2017] about strongly univoque sets.