arXiv:2102.04038 Abstract | arXiv Analytics

arXiv:2102.04038 [math.NT]Abstract References Reviews Resources

Prime-representing functions and Hausdorff dimension

Published 2021-02-08Version 1

In 2010, Matom\"{a}ki investigated the set of $A>1$ such that the integer part of $ A^{c^k} $ is a prime number for every $k\in \mathbb{N}$, where $c\geq 2$ is any fixed real number. She proved that the set is uncountable, nowhere dense, and has Lebesgue measure $0$. In this article, we show that the set has Hausdorff dimension $1$.

Comments: 15 pages

Categories: math.NT, math.MG

Subjects: 11K55, 11A41

Keywords: hausdorff dimension, prime-representing functions, prime number, lebesgue measure, integer part

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arXiv:2102.04038 [math.NT]Abstract References Reviews Resources

Prime-representing functions and Hausdorff dimension

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Prime-representing functions and Hausdorff dimension

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arXiv:2102.04038 [math.NT]Abstract References Reviews Resources