Exceptional sets for sums of five and six almost equal prime cubes

In this paper, we shall prove that any subset of $\overline{\mathbb{Q}}$, which is closed under complex conjugation, is the exceptional set of uncountably many transcendental entire functions with rational coefficients. This solves an old question proposed by Mahler [Lectures on Transcendental Numbers, Lecture Notes in Mathematics, 546 (Springer, Berlin, 1976)].

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Quantitative relations between short intervals and exceptional sets of cubic Waring-Goldbach problem

Open Mathematics ◽

10.1515/math-2017-0130 ◽

2017 ◽

Vol 15 (1) ◽

pp. 1517-1529

Author(s):

Zhao Feng

Keyword(s):

Short Intervals ◽

Exceptional Sets ◽

Goldbach Problem ◽

Almost All

Abstract In this paper, we are able to prove that almost all integers n satisfying some necessary congruence conditions are the sum of j almost equal prime cubes with j = 7, 8, i.e., $\begin{array}{} N=p_1^3+ \ldots +p_j^3 \end{array} $ with $\begin{array}{} |p_i-(N/j)^{1/3}|\leq N^{1/3- \delta +\varepsilon} (1\leq i\leq j), \end{array} $ for some $\begin{array}{} 0 \lt \delta\leq\frac{1}{90}. \end{array} $ Furthermore, we give the quantitative relations between the length of short intervals and the size of exceptional sets.

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Exceptional sets related to the largest digits in Lüroth expansions

International Journal of Number Theory ◽

10.1142/s1793042122500737 ◽

2021 ◽

pp. 1-15

Author(s):

Shuyi Lin ◽

Jinjun Li ◽

Manli Lou

Keyword(s):

Number Theory ◽

Hausdorff Dimension ◽

Level Sets ◽

Disjoint Union ◽

Exceptional Set ◽

Exceptional Sets ◽

Lüroth Expansion

Let [Formula: see text] denote the largest digit of the first [Formula: see text] terms in the Lüroth expansion of [Formula: see text]. Shen, Yu and Zhou, A note on the largest digits in Luroth expansion, Int. J. Number Theory 10 (2014) 1015–1023 considered the level sets [Formula: see text] and proved that each [Formula: see text] has full Hausdorff dimension. In this paper, we investigate the Hausdorff dimension of the following refined exceptional set: [Formula: see text] and show that [Formula: see text] has full Hausdorff dimension for each pair [Formula: see text] with [Formula: see text]. Combining the two results, [Formula: see text] can be decomposed into the disjoint union of uncountably many sets with full Hausdorff dimension.

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ON A CLASS OF EXCEPTIONAL SETS IN THE THEORY OF CONFORMAL MAPPINGS

Mathematics of the USSR-Sbornik ◽

10.1070/sm1991v068n01abeh001370 ◽

1991 ◽

Vol 68 (1) ◽

pp. 19-30 ◽

Cited By ~ 1

Author(s):

N G Makarov

Keyword(s):

Conformal Mappings ◽

Exceptional Sets

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Exceptional sets for holomorphic Sobolev functions.

10.1307/mmj/1029003680 ◽

1988 ◽

Vol 35 (1) ◽

pp. 29-41 ◽

Cited By ~ 9

Author(s):

Patrick Ahern

Keyword(s):

Exceptional Sets ◽

Sobolev Functions

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Logarithmic derivative estimates of meromorphic functions of finite order in the half-plane

Matematychni Studii ◽

10.30970/ms.54.2.172-187 ◽

2020 ◽

Vol 54 (2) ◽

pp. 172-187

Author(s):

I.E. Chyzhykov ◽

A.Z. Mokhon'ko

Keyword(s):

Meromorphic Function ◽

Finite Order ◽

Half Plane ◽

Meromorphic Functions ◽

Logarithmic Derivative ◽

Sharp Estimates ◽

Exceptional Sets ◽

Upper Half Plane ◽

Logarithmic Derivatives

We established new sharp estimates outside exceptional sets for of the logarithmic derivatives $\frac{d^ {k} \log f(z)}{dz^k}$ and its generalization $\frac{f^{(k)}(z)}{f^{(j)}(z)}$, where $f$ is a meromorphic function $f$ in the upper half-plane, $k>j\ge0$ are integers. These estimates improve known estimates due to the second author in the class of meromorphic functions of finite order.Examples show that size of exceptional sets are best possible in some sense.

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