No wandering domain theorem

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In mathematics, the no wandering domain theorem is a result on dynamical systems, proved by Dennis Sullivan in 1985.

The theorem states that a rational map f with deg(f) ≥ 2 does not have a wandering domain. More precisely, there is no component U in the Fatou set of f such that the sequence

$U,f(U),f(f(U)),\dots,f^n(U), \dots$

does not eventually become periodic. Here, fⁿ denotes the n-fold iteration of f, that is,

$f^n = \underbrace{f \circ f\circ \cdots \circ f}_n .$

The theorem does not hold for arbitrary maps; for example, f(z) = z + sin(2πz) has wandering domains.

[edit] References

Lennart Carleson and Theodore W. Gamelin, Complex Dynamics, Universitext: Tracts in Mathematics, Springer-Verlag, New York, 1993, ISBN 0-387-97942-5 MR 1230383
Dennis Sullivan, Quasiconformal homeomorphisms and dynamics. I. Solution of the Fatou-Julia problem on wandering domains, Annals of Mathematics 122 (1985), no. 3, 401--418. MR 0819553
S. Zakeri, Sullivan's proof of Fatou's no wandering domain conjecture