M. Levin defined a real number x that satisfies that the sequence of the fractional parts of $$(2^n x)_{n\ge 1}$$(2nx)n≥1 are such that the first N terms have discrepancy $$O((\log… Click to show full abstract
M. Levin defined a real number x that satisfies that the sequence of the fractional parts of $$(2^n x)_{n\ge 1}$$(2nx)n≥1 are such that the first N terms have discrepancy $$O((\log N)^2/ N)$$O((logN)2/N), which is the smallest discrepancy known for this kind of parametric sequences. In this work we show that the fractional parts of the sequence $$(2^n x)_{n\ge 1}$$(2nx)n≥1 fail to have Poissonian pair correlations. Moreover, we show that all the real numbers x that are variants of Levin’s number using Pascal triangle matrices are such that the fractional parts of the sequence $$(2^n x)_{n\ge 1}$$(2nx)n≥1 fail to have Poissonian pair correlations.
Journal Title: Archiv der Mathematik
Year Published: 2019
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