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Nevanlinna's five-value theorem for algebroid functions
Ashok Rathod Department of Mathematics,
Karnatak University,
Dharwad-580003, India
Аннотация:
By using the second main theorem of the algebroid function, we study the following problem. Let
$W_{1}(z)$ and
$W_{2}(z)$ be two
$\nu$-valued non-constant algebroid functions,
$a_{j}\,(j=1,2,\ldots,q)$ be
$q\geq 4\nu+1$ distinct complex numbers or
$\infty$. Suppose that
${k_{1}\geq k_{2}\geq \ldots\geq k_{q},m}$ are positive integers or
$\infty$,
$1\leq m\leq q$ and
$\delta_{j} \geq 0$,
$j=1,2,\ldots,q$, are such that
\begin{equation*}
\left(1+\frac{1}{k_{m}}\right)\sum_{j=m}^{q}\frac{1}{1+k_{j}}+3\nu +\sum_{j=1}^{q}\delta_{j}<(q-m-1)\left(1+\frac{1}{k_{m}}\right)+m.
\end{equation*}
Let $B_{j}=\overline{E}_{k_{j}}(a_{j},f)\backslash\overline{E}_{k_{j}}(a_{j},g)$ for
$j=1,2,\ldots,q.$ If
\begin{equation*}
\overline{N}_{B_{j}}(r,\frac{1}{W_{1}-a_{j}})\leq \delta_{j}T(r,W_{1})
\end{equation*}
and
\begin{equation*}
\liminf_{r\rightarrow \infty}^{}\frac{\sum\limits_{j=1}^{q} \overline{N}_{k_{j}}(r,\frac{1}{W_{1}-a_{j}})} {\sum\limits_{j=1}^{q}\overline{N}_{k_{j}}(r,\frac{1}{W_{2}-a_{j}})}> \frac{\nu k_{m}}{(1+k_{m})\sum\limits_{j=1}^{q} \frac{k_{j}}{k_{j}+1}-2\nu(1+k_{m}) +(m-2\nu-\sum\limits_{j=1}^{q}\delta_{j})k_{m}},
\end{equation*}
then
$W_{1}(z)\equiv W_{2}(z).$ This result improves and generalizes the previous results given by Xuan and Gao.
Ключевые слова:
value distribution theory, Nevanlinna theory, algebroid functions, uniqueness.
УДК:
512.5
MSC: 30D35 Поступила в редакцию: 06.04.2017
Язык публикации: английский