Английская Википедия:Classification of Fatou components
In mathematics, Fatou components are components of the Fatou set. They were named after Pierre Fatou.
Rational case
If f is a rational function
- <math>f = \frac{P(z)}{Q(z)}</math>
defined in the extended complex plane, and if it is a nonlinear function (degree > 1)
- <math> d(f) = \max(\deg(P),\, \deg(Q))\geq 2,</math>
then for a periodic component <math>U</math> of the Fatou set, exactly one of the following holds:
- <math>U</math> contains an attracting periodic point
- <math>U</math> is parabolic[1]
- <math>U</math> is a Siegel disc: a simply connected Fatou component on which f(z) is analytically conjugate to a Euclidean rotation of the unit disc onto itself by an irrational rotation angle.
- <math>U</math> is a Herman ring: a double connected Fatou component (an annulus) on which f(z) is analytically conjugate to a Euclidean rotation of a round annulus, again by an irrational rotation angle.
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Julia set (white) and Fatou set (dark red/green/blue) for <math>f: z\mapsto z-\frac{g}{g'}(z)</math> with <math>g: z \mapsto z^3-1</math> in the complex plane.
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Julia set with parabolic cycle
-
Julia set with Siegel disc (elliptic case)
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Julia set with Herman ring
Attracting periodic point
The components of the map <math>f(z) = z - (z^3-1)/3z^2</math> contain the attracting points that are the solutions to <math>z^3=1</math>. This is because the map is the one to use for finding solutions to the equation <math>z^3=1</math> by Newton–Raphson formula. The solutions must naturally be attracting fixed points.
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Dynamic plane consist of Fatou 2 superattracting period 1 basins, each has only one component.
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Level curves and rays in superattractive case
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Julia set with superattracting cycles (hyperbolic) in the interior ( perieod 2) and the exterior (period 1)
Herman ring
The map
- <math>f(z) = e^{2 \pi i t} z^2(z - 4)/(1 - 4z)</math>
and t = 0.6151732... will produce a Herman ring.[2] It is shown by Shishikura that the degree of such map must be at least 3, as in this example.
More than one type of component
If degree d is greater than 2 then there is more than one critical point and then can be more than one type of component
-
Herman+Parabolic
-
Period 3 and 105
-
attracting and parabolic
-
period 1 and period 1
-
period 4 and 4 (2 attracting basins)
-
two period 2 basins
Transcendental case
Baker domain
In case of transcendental functions there is another type of periodic Fatou components, called Baker domain: these are "domains on which the iterates tend to an essential singularity (not possible for polynomials and rational functions)"[3][4] one example of such a function is:[5] <math display="block">f(z) = z - 1 + (1 - 2z)e^z</math>
Wandering domain
Transcendental maps may have wandering domains: these are Fatou components that are not eventually periodic.
See also
References
- Lennart Carleson and Theodore W. Gamelin, Complex Dynamics, Springer 1993.
- Alan F. Beardon Iteration of Rational Functions, Springer 1991.
- ↑ wikibooks : parabolic Julia sets
- ↑ Шаблон:Citation
- ↑ An Introduction to Holomorphic Dynamics (with particular focus on transcendental functions)by L. Rempe
- ↑ Siegel Discs in Complex Dynamics by Tarakanta Nayak
- ↑ A transcendental family with Baker domains by Aimo Hinkkanen, Hartje Kriete and Bernd Krauskopf
- ↑ JULIA AND JOHN REVISITED by NICOLAE MIHALACHE
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