Analytic continuation Guide, Meaning , Facts, Information and Description
In complex analysis a branch of mathematics, analytic continuation is a technique to extend the domain of definition of a given analytic function.Suppose f is an analytic function defined on the open subset U of the complex plane C. If V is an open subset of C containing U, and F is an analytic function defined on V such that F(z) = f(z) for all z in U, then F is called an analytic continuation of f.
Analytic continuations are unique in the following sense: if V is connected and F1 and F2 are two analytic continuations of f defined on V, then F1 = F2. That is because the difference is an analytic function vanishing on a non-empty open set.
For example, if a power series with radius of convergence r is given, one can consider analytic continuations of the power series, i.e. analytic functions F which are defined on larger sets than
- {z : |z − a| < r},
- |z − a| = r
A common way to define functions in complex analysis proceeds by first specifying the function on a small domain only, and then extending it by analytic continuation. In practice, this continuation is often done by first establishing some functional equation on the small domain and then using this equation to extend the domain. Examples are the Riemann zeta function and the gamma function.
The concept of a universal cover was first developed to define a natural domain for the analytic continuation of an analytic function.
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