高阶线性差分方程分形解生成的线性差分多项式的增长和值分布

IF 0.8 4区数学 Q2 MATHEMATICS Electronic Journal of Differential Equations Pub Date : 2023-12-16 DOI:10.58997/ejde.2023.84

Yi Xin Luo, Xiu Min Zheng

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引用次数: 0

摘要

本文研究了高阶复线性差分方程 $$ A_n(z)f(z+n)+\dots+A_1(z)f(z+1)+A_0(z)f(z)=0 \quad \text{and } =F(z) 的分形解的增长和值分布之间的关系、$$ 和线性差分多项式 $$ g(z)=\alpha_n(z)f(z+n)+\dots+alpha_1(z)f(z+1)+\alpha_0(z)f(z) $$ 由 $f(z)$ 生成，其中 $A_j(z)$,$\alpha_j(z)$ ($j=0,1,\ldots,n$),$F(z)$$(\not\equiv0)$都是同态函数。我们改进了贝莱迪、陈和郑等人之前的一些结果。更多信息见 https://ejde.math.txstate.edu/Volumes/2023/84/abstr.html

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Growth and value distribution of linear difference polynomials generated by meromorphic solutions of higher-order linear difference equations

In this article, we investigate the relationship between growth and value distribution of meromorphic solutions for the higher-order complex linear difference equations $$ A_n(z)f(z+n)+\dots+A_1(z)f(z+1)+A_0(z)f(z)=0 \quad \text{and } =F(z), $$ and for the linear difference polynomial $$ g(z)=\alpha_n(z)f(z+n)+\dots+\alpha_1(z)f(z+1)+\alpha_0(z)f(z) $$ generated by $f(z)$ where $A_j(z)$, $\alpha_j(z)$ ($j=0,1,\ldots,n$), $F(z)$ $(\not\equiv0)$ are meromorphic functions. We improve some previous results due to Belaidi, Chen and Zheng and others. For more information see https://ejde.math.txstate.edu/Volumes/2023/84/abstr.html

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来源期刊

Electronic Journal of Differential Equations MATHEMATICS, APPLIED-MATHEMATICS

CiteScore

1.50

自引率

14.30%

发文量

审稿时长

3 months

期刊介绍： All topics on differential equations and their applications (ODEs, PDEs, integral equations, delay equations, functional differential equations, etc.) will be considered for publication in Electronic Journal of Differential Equations.