Hausdorff dimension and uniform exponents in dimension two

Yann Bugeaud, Yitwah Cheung, Nicolas Chevallier

Published 2016-10-20Version 1

In this paper we prove the Hausdorff dimension of the set of (nondegenerate) singular two-dimensional vectors with uniform exponent $\mu$ $\in$ (1/2, 1) is 2(1 -- $\mu$) when $\mu$ $\ge$ $\sqrt$ 2/2, whereas for $\mu$ \textless{} $\sqrt$ 2/2 it is greater than 2(1 -- $\mu$) and at most (3 -- 2$\mu$)(1 -- $\mu$)/(1 + $\mu$ + $\mu$ 2). We also establish that this dimension tends to 4/3 (which is the dimension of the set of singular two-dimensional vectors) when $\mu$ tends to 1/2. These results improve upon previous estimates of R. Baker, joint work of the first author with M. Laurent, and unpublished work of M. Laurent. We also prove a lower bound on the packing dimension that is strictly greater than the Hausdorff dimension for $\mu$ $\ge$ 0.565. .. .