Isolated singularity
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In complex analysis, a branch of mathematics, an isolated singularity is a singularity which contains no other singularities close to it.
Formally, a complex number z is an isolated singularity of a function f if there exists an open disk D centered at z such that f is holomorphic on D−{z}, that is, on the set obtained from D by taking z out.
Every singularity of a meromorphic function is isolated, but isolation of singularities is not alone sufficient to guarantee a function is meromorphic. Many important tools of complex analysis such as Laurent series and the residue theorem require that all relevant singularities of the function be isolated.
Examples
- The function <math>\frac {1} {z}<math> has 0 as an isolated singularity.
- The function <math>\csc \left(\frac {1} {\pi z}\right)<math> has a singularity at 0 which is not isolated, since there are additional singularities at the reciprocal of every integer which are located arbitrarily close to 0 (though the singularities at these reciprocals are themselves isolated).