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| UNUNIQUENESS OF SOME HOLOMORPHIC FUNCTIONS |
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Citation: |
Deng Guantie.UNUNIQUENESS OF SOME HOLOMORPHIC FUNCTIONS[J].Chinese Annals of Mathematics B,1986,7(3):330~338 |
| Page view: 767
Net amount: 563 |
Authors: |
Deng Guantie; |
Foundation: |
Research partially supported by the Science Foundation of the Academ ia Sinica. Research yartially supported by the Science Foundation of the Academia Sinica. |
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| Abstract: |
In the present paper, we show that there exist a bounded, holomorphic function $\[f(z) \ne 0\]$ in the domain $\[\{ z = x + iy:\left| y \right| < \alpha \} \]$ such that $\[f(z)\]$ has a Dirichlet expansion $\[\sum\limits_{n = 0}^{ + \infty } {{d_n}{e^{ - {u_n}}}} \]$ in the halfplane $\[x > {x_f}\]$ if and only if $\[\frac{a}{\pi }\log r - \sum\limits_{{u_n} < r} {\frac{2}{{{u_n}}}} \]$ has a finite upperbound on $\[[1, + \infty )\]$, where $\[\alpha \]$ is a positive constant,$\[{x_f}( < + \infty )\]$ is the abscissa of convergence of $\[\sum\limits_{n = 0}^{ + \infty } {{d_n}{e^{ - {u_n}}}} \]$ and the infinite sequence $\[\{ {u_n}\} \]$ satisfies $\[\mathop {\lim }\limits_{n \to + \infty } ({u_{n + 1}} - {u_n}) > 0\]$. We also point out some necessary conditions and sufficient ones Such that a bounded holomorphic function in an angular(or half-band) domain is identically zero if an infinite sequence of its derivatives and itself vanish at some point of the domain. Here some result are generalizations of those in [4]. |
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