Abel function: Difference between revisions

	Main Article	Discussion	Related Articles  [?]	Bibliography  [?]	External Links  [?]	Citable Version  [?]
	This editable Main Article is under development and subject to a disclaimer. [edit intro]

Template:Under construction

Abel function is special kind of solutions of the Abel equations used to classify then as superfunctions, and formulate conditions of the uniqueness.

The Abel equation ^{[1] [2]} is class of equations which can be written in the form

${\displaystyle g(f(z))=g(z)+1}$

where function ${\displaystyle f}$ is supposed to be given, and function ${\displaystyle g}$ is expected to be found. This equation is closely related to the iteraitonal equation

${\displaystyle H(F(z))=F(z+1)}$

${\displaystyle f(u)=v}$

which is also called "Abel equation". There is deduction at wikipedia that show some eqiovalence of these equaitons.

In general the Abel equation may have many solutions, and the additional requirements are necesary to select the only one among them.

superfunctions and Abel funcitons

If

${\displaystyle C\subseteq \mathbb {C} }$, ${\displaystyle D\subseteq \mathbb {C} }$

${\displaystyle F}$ is holomorphic function on ${\displaystyle C}$, ${\displaystyle f}$ is holomorphic function on ${\displaystyle D}$

${\displaystyle F(D)\subseteq C}$

${\displaystyle f(u)=v}$

${\displaystyle F(z+1)=F(f(z))~\forall z\in D:z\!+\!1\in D}$

Then and only then
${\displaystyle f}$ is ${\displaystyle u,v}$ superfunction of ${\displaystyle F}$ on ${\displaystyle D}$

If

${\displaystyle f}$ is ${\displaystyle u,v}$ superfunction on ${\displaystyle F}$ on ${\displaystyle D}$

<math> H \subseteq \mathbb{C}, <math> D \subseteq \mathbb{C},

Examples