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In complex analysis, a pole is a type of singularity of a function of a complex variable. In the neighbourhood of a pole, the function behave like a negative power.

A function f has a pole of order k, where k is a positive integer, at a point a if the limit

\lim _{z\rightarrow a}f(z)(z-a)^{k}=r\,

for some non-zero value of r.

The pole is an isolated singularity if there is a neighbourhood of a in which f is holomorphic except at a. In this case the function has a Laurent series in a neighbourhood of a, so that f is expressible as a power series

f(z)=\sum _{n=-k}^{\infty }c_{n}(z-a)^{n},\,

where the leading coefficient $c_{-k}=r$ . The residue of f is the coefficient $c_{-1}$ .

An isolated singularity may be either removable, a pole, or an essential singularity.

References

Tom M. Apostol (1974). Mathematical Analysis, 2nd ed. Addison-Wesley, 458.

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	==References==		==References==
	* {{cite book \| author=Tom M. Apostol \| title=Mathematical Analysis \| edition=2nd ed \| publisher=Addison-Wesley \| year=1974 \| pages=458 }}		* {{cite book \| author=Tom M. Apostol \| title=Mathematical Analysis \| edition=2nd ed \| publisher=Addison-Wesley \| year=1974 \| pages=458 }}[[Category:Suggestion Bot Tag]]

Pole (complex analysis): Difference between revisions

Latest revision as of 11:00, 5 October 2024

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