Removable singularity
This article needs additional citations for verification. (July 2021) |
In complex analysis, a removable singularity of a holomorphic function is a point at which the function is undefined, but it is possible to redefine the function at that point in such a way that the resulting function is regular in a neighbourhood of that point.
For instance, the (unnormalized) sinc function, as defined by
has a singularity at z = 0. This singularity can be removed by defining which is the limit of sinc as z tends to 0. The resulting function is holomorphic. In this case the problem was caused by sinc being given an indeterminate form. Taking a power series expansion for around the singular point shows that
Formally, if is an
Riemann's theorem
Riemann's theorem on removable singularities is as follows:
Theorem — Let be an open subset of the complex plane, a point of and a holomorphic function defined on the set . The following are equivalent:
- is holomorphically extendable over .
- is continuously extendable over .
- There exists a neighborhoodof on which is bounded.
- .
The implications 1 ⇒ 2 ⇒ 3 ⇒ 4 are trivial. To prove 4 ⇒ 1, we first recall that the holomorphy of a function at is equivalent to it being analytic at (
Clearly, h is holomorphic on , and there exists
by 4, hence h is holomorphic on D and has a Taylor series about a:
We have c0 = h(a) = 0 and c1 = h'(a) = 0; therefore
Hence, where , we have:
However,
is holomorphic on D, thus an extension of .
Other kinds of singularities
Unlike functions of a real variable, holomorphic functions are sufficiently rigid that their isolated singularities can be completely classified. A holomorphic function's singularity is either not really a singularity at all, i.e. a removable singularity, or one of the following two types:
- In light of Riemann's theorem, given a non-removable singularity, one might ask whether there exists a natural number such that . If so, is called a poleof and the smallest such is the order of . So removable singularities are precisely thepolesof order 0. A holomorphic function blows up uniformly near its other poles.
- If an isolated singularity of is neither removable nor a pole, it is called an Great Picard Theoremshows that such an maps every punctured open neighborhood to the entire complex plane, with the possible exception of at most one point.
See also
- Analytic capacity
- Removable discontinuity