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Difference between revisions of "Fabry theorem"

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(→‎Fabry's gap theorem: A converse to the theorem was established by George Pólya)
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then the circle $\lvert z\rvert=R$ is a [[natural boundary]]: all points of the cicle are singular points for $f(z)$. The theorem can be generalized to Dirichlet series.
 
then the circle $\lvert z\rvert=R$ is a [[natural boundary]]: all points of the cicle are singular points for $f(z)$. The theorem can be generalized to Dirichlet series.
  
A converse to the theorem was established by George Pólya.  If $\lim\inf p_n/n$ is finite then there exists a power series with exponent sequence $p_n$, radius of convergence equal to 1, but for which the unit circle is not a natural boundary.
+
A converse to the theorem was established by George Pólya.  If $\lim\inf \lambda_n/n$ is finite then there exists a power series with exponent sequence $p_n$, radius of convergence equal to 1, but for which the unit circle is not a natural boundary.
  
 
==Fabry's quotient theorem==
 
==Fabry's quotient theorem==

Revision as of 18:19, 28 December 2014

Fabry's gap theorem

If the exponents $\lambda_n$ in the power series

$$ f(z)=\sum_{n=1}^\infty a_nz^{\lambda_n},$$

with radius of convergence $R$, $0<R<\infty$, satisfy the condition

$$\lim_{n\to\infty}\frac{n}{\lambda_n}=0,$$

then the circle $\lvert z\rvert=R$ is a natural boundary: all points of the cicle are singular points for $f(z)$. The theorem can be generalized to Dirichlet series.

A converse to the theorem was established by George Pólya. If $\lim\inf \lambda_n/n$ is finite then there exists a power series with exponent sequence $p_n$, radius of convergence equal to 1, but for which the unit circle is not a natural boundary.

Fabry's quotient theorem

If the coefficients in the power series

$$ f(z)=\sum_{n=0}^\infty a_nz^n,$$

with unit radius of convergence, satisfy the condition

$$ \lim_{n\to \infty}\frac{a_n}{a_{n+1}}=s,$$

then $z=s$ is a singular point of $f(z)$.

These theorems were obtained by E. Fabry [Fa].

References

[Bi] L. Bieberbach, "Analytische Fortsetzung" , Springer (1955)
[Di] P. Dienes, "The Taylor series" , Oxford Univ. Press & Dover (1957)
[Fa] E. Fabry, "Sur les points singuliers d'une fonction donée par son développement en série et l'impossibilité du prolongement analytique dans des cas très généraux" Ann. Sci. Ecole Norm. Sup. , 13 (1896) pp. 367–399
[La] E. Landau, "Darstellung und Begründung einiger neuerer Ergebnisse der Funktionentheorie" , Das Kontinuum und andere Monographien , Chelsea, reprint (1973)
[Le] A.F. Leont'ev, "Exponential series" , Moscow (1976) (In Russian)
How to Cite This Entry:
Fabry theorem. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Fabry_theorem&oldid=35918
This article was adapted from an original article by A.F. Leont'ev (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article