English

Counting rationals and diophantine approximation in missing-digit Cantor sets

Number Theory 2026-01-21 v2

Abstract

We establish a new upper bound for the number of rationals up to a given height in a missing-digit set, making progress towards a conjecture of Broderick, Fishman, and Reich. This enables us to make novel progress towards another conjecture of those authors about the corresponding intrinsic diophantine approximation problem. Moreover, we make further progress towards conjectures of Bugeaud--Durand and Levesley--Salp--Velani on the distribution of diophantine exponents in missing-digit sets. A key tool in our study is Fourier 1\ell^1 dimension introduced by the last named author in [H. Yu, Rational points near self-similar sets, arXiv:2101.05910]. An important technical contribution of the paper is a method to compute this quantity.

Keywords

Cite

@article{arxiv.2402.18395,
  title  = {Counting rationals and diophantine approximation in missing-digit Cantor sets},
  author = {Sam Chow and Péter P. Varjú and Han Yu},
  journal= {arXiv preprint arXiv:2402.18395},
  year   = {2026}
}

Comments

26 pages + appendix and references, improvements to the presentation following referee's report, final accepted version to be published in Adv. Math

R2 v1 2026-06-28T15:03:22.513Z