arXiv:2005.04371 Abstract | arXiv Analytics

arXiv:2005.04371 [math.DS]Abstract References Reviews Resources

Diophantine approximation by negative continued fraction

Published 2020-05-09Version 1

We show that the growth rate of denominator $Q_n$ of the $n$-th convergent of negative expansion of $x$ and the rate of approximation: $$ \frac{\log{n}}{n}\log{\left|x-\frac{P_n}{Q_n}\right|}\rightarrow -\frac{\pi^2}{3} \quad \text{in measure.} $$ for a.e. $x$. In the course of the proof, we reprove known inspiring results that arithmetic mean of digits of negative continued fraction converges to 3 in measure, although the limit inferior is 2, and the limit superior is infinite almost everywhere.

Comments: 8 pages

Categories: math.DS, math.NT

Keywords: diophantine approximation, limit superior, growth rate, arithmetic mean, negative continued fraction converges

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arXiv:2005.04371 [math.DS]Abstract References Reviews Resources

Diophantine approximation by negative continued fraction

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Diophantine approximation by negative continued fraction

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arXiv:2005.04371 [math.DS]Abstract References Reviews Resources