Global analytic function: Difference between revisions

In the [[mathematics|mathematical]] field of [[complex analysis]], a '''global analytic function''' (or '''complete analytic function''') is a generalization of the notion of an [[analytic function]] which allows for functions to have multiple [[branch cut|branches]]. Global analytic functions arise naturally in considering the possible [[analytic continuation]]s of an analytic function, since analytic continuations may have a non-trivial [[monodromy]]. They are one foundation for the theory of [[Riemann surface]]s.

The following definition ismay be found in {{harvtxt|Ahlfors|1979}}, but also found in Weyl or perhaps Weierstrass. An analytic function in an [[open set]] ''U'' is called a function element. Two function elements (''f''₁, ''U''₁) and (''f''₂, ''U''₂) are said to be [[analytic continuation]]s of one another if ''U''₁ ∩ ''U''₂ ≠ ∅ and ''f''₁ = ''f''₂ on this intersection. A chain of analytic continuations is a finite sequence of function elements (''f''₁, ''U''₁), …, (''f''_''n'',''U''_''n'') such that each consecutive pair are analytic continuations of one another; i.e., (''f''_''i''+1, ''U''_''i''+1) is an analytic continuation of (''f''_''i'', ''U''_''i'') for ''i'' = 1, 2, …, ''n'' − 1.