Random dynamics of polynomials and devil’s-staircase-like functions in the complex plane

We consider the dynamics of polynomial semigroups with bounded postcritical set and random dynamics of complex polynomials in the complex plane. A polynomial semigroup G is a semigroup generated by polynomials in one variable with the semigroup operation being functional composition. We show that if...

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Bibliographic Details
Published in:Applied mathematics and computation 2007-04, Vol.187 (1), p.489-500
Main Author: Sumi, Hiroki
Format: Article
Language:English
Subjects:
Complex dynamical systems
Devil’s-staircase-like function
Exact sciences and technology
Global analysis, analysis on manifolds
Group theory
Group theory and generalizations
Mathematical analysis
Mathematics
Numerical analysis
Numerical analysis. Scientific computation
Polynomial semigroups
Random dynamical systems
Sciences and techniques of general use
Several complex variables and analytic spaces
Topology. Manifolds and cell complexes. Global analysis and analysis on manifolds
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Summary:We consider the dynamics of polynomial semigroups with bounded postcritical set and random dynamics of complex polynomials in the complex plane. A polynomial semigroup G is a semigroup generated by polynomials in one variable with the semigroup operation being functional composition. We show that if the postcritical set of G, that is the closure of the G-orbit of the union of any critical values of any generators of G, is bounded in the complex plane, then the space of components of the Julia set of G (Julia set is the set of points in the Riemann sphere C ¯ in which G is not normal) has a total order “⩽”, where for two compact connected sets K 1, K 2 in C ¯ , K 1 ⩽ K 2 indicates that K 1 = K 2, or K 1 is included in a bounded component of C ¯ ⧹ K 2 . Using the above result and combining it with the theory of random dynamics of complex polynomials, we consider the following: Let τ be a Borel probability measure in the space { g ∈ C [ z ] | deg ( g ) ⩾ 2 } with topology induced by the uniform convergence on the Riemann sphere C ¯ . We consider the i.i.d. random dynamics in C ¯ such that at every step we choose a polynomial according to the distribution τ. Let T ∞( z) be the probability of tending to ∞ ∈ C ¯ starting from the initial value z ∈ C ¯ and let G τ be the polynomial semigroup generated by the support of τ. Suppose that the support of τ is compact, the postcritical set of G τ is bounded in the complex plane and the Julia set of G τ is disconnected. Then, we show that (1) in each component U of the complement of the Julia set of G τ , T ∞∣ U equals a constant C U , (2) T ∞ : C ¯ → [ 0 , 1 ] is a continuous function on the whole C ¯ , and (3) if J 1, J 2 are two components of the Julia set of G τ with J 1 ⩽ J 2, then max z ∈ J 1 T ∞ ( z ) ⩽ min z ∈ J 2 T ∞ ( z ) . Hence T ∞ is similar to the devil’s-staircase function.
ISSN:0096-3003
1873-5649
DOI:10.1016/j.amc.2006.08.149