On the h-measure of an exceptional set in Fenton-type theorem for Taylor-Dirichlet series

Q3 Mathematics Matematychni Studii Pub Date : 2024-03-27 DOI:10.30970/ms.61.1.109-112
Andrii Bodnarchuk, Yu.M. Gal', O. Skaskiv
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Abstract

We consider the class $S(\lambda,\beta,\tau)$ of convergent for all  $x\ge0$ Taylor-Dirichlet type series of the form $$F(x) =\sum_{n=0}^{+\infty}{b_ne^{x\lambda_n+\tau(x)\beta_n}},\  b_n\geq 0\ (n\geq 0),$$  where  $\tau\colon [0,+\infty)\to (0,+\infty)$\ is a continuously differentiable non-decreasing function, $\lambda=(\lambda_n)$ and $\beta=(\beta_n)$ are such that $\lambda_n\geq 0, \beta_n\geq 0$ $(n\geq 0)$. In the paper we give a partial answer to a question formulated by Salo T.M., Skaskiv O.B., Trusevych O.M. on International conference  ``Complex Analysis and Related Topics'' (Lviv, September 23-28, 2013) ([2]). We prove the following statement: For each increasing function  $h(x)\colon [0,+\infty)\to (0,+\infty)$, $h'(x)\nearrow +\infty$ $ (x\to +\infty)$, every sequence  $\lambda=(\lambda_n)$ such that  $\displaystyle\sum_{n=0}^{+\infty}\frac1{\lambda_{n+1}-\lambda_n}<+\infty$ and for any non-decreasing sequence  $\beta=(\beta_n)$ such that $\beta_{n+1}-\beta_n\le\lambda_{n+1}-\lambda_n$ $(n\geq 0)$  there exist a function  $\tau(x)$ such that $\tau'(x)\ge 1$ $(x\geq x_0)$, a function  $F\in S(\alpha, \beta, \tau)$, a set  $E$ and  a constant $d>0$ such that $h-\mathop{meas} E:=\int_E dh(x)=+\infty$ and $(\forall x\in E)\colon\ F(x)>(1+d)\mu(x,F),$ where $\mu(x,F)=\max\{|a_n|e^{x\lambda_n+\tau(x)\beta_n}\colon n\ge 0\}$ is the maximal term of the series.   At the same time, we also pose some open questions and formulate one conjecture.
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论泰勒-德里赫利数列芬顿型定理中例外集的 h 度量
我们考虑了$S(\lambda,\beta,\tau)$这一类对于所有$x\ge0$都收敛的泰勒-德里赫特类型序列,其形式为$F(x) =\sum_{n=0}^{+\infty}{b_ne^{x\lambda_n+\tau(x)\beta_n}},\b_n\geq 0\ (n\geq 0)、其中 $\tau\colon [0,+\infty)\to (0,+\infty)$\ 是一个连续可微的非递减函数,$\lambda=(\lambda_n)$ 和 $\beta=(\beta_n)$ 都使得 $\lambda_n\geq 0, \beta_n\geq 0$ (n\geq 0)$。本文部分回答了萨洛-T.M.、斯卡斯基夫-O.B.、特鲁塞维奇-O.M.在 "复杂分析及相关主题 "国际会议(利沃夫,2013 年 9 月 23-28 日)上提出的问题([2])。我们证明了以下陈述:对于每个递增函数 $h(x)\colon [0,+\infty)\to (0,+\infty)$, $h'(x)\nearrow +\infty$ $ (x\to +\infty)$、每一个序列 $\lambda=(\lambda_n)$ 这样 $\displaystyle\sum_{n=0}^{+\infty}\frac1\{lambda_{n+1}-\lambda_n}0$ 这样 $h-\mathop{meas} E:=\int_E dh(x)=+\infty$ 并且 $(\forall x\in E)\colon\ F(x)>(1+d)\mu(x,F),$ 其中 $\mu(x,F)=\max\{|a_n|e^{x\lambda_n+\tau(x)\beta_n}\colon n\ge 0\}$ 是数列的最大项。 同时,我们还提出了一些开放性问题和一个猜想。
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来源期刊
Matematychni Studii
Matematychni Studii Mathematics-Mathematics (all)
CiteScore
1.00
自引率
0.00%
发文量
38
期刊介绍: Journal is devoted to research in all fields of mathematics.
期刊最新文献
On the h-measure of an exceptional set in Fenton-type theorem for Taylor-Dirichlet series Almost periodic distributions and crystalline measures Reflectionless Schrodinger operators and Marchenko parametrization Existence of basic solutions of first order linear homogeneous set-valued differential equations Real univariate polynomials with given signs of coefficients and simple real roots
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