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We study polynomials with coefficients in a field L as dynamical systems where L is any algebraically closed and complete ultrametric field with dense valuation group and characteristic zero residual field. We give a complete description of…

Dynamical Systems · Mathematics 2007-05-23 Jan Kiwi

By studying laminations of the unit disk, we can gain insight into the structure of Julia sets of polynomials and their dynamics in the complex plane. The polynomials of a given degree, $d$, have a parameter space. The hyperbolic components…

Dynamical Systems · Mathematics 2023-09-25 John C. Mayer , Michael J. Moorman , Gabriel B. Quijano , Matthew C. Williams

We prove that a nonempty, proper subset $S$ of the complex plane can be approximated in a strong sense by polynomial filled Julia sets if and only if $S$ is bounded and $\hat{\mathbb{C}} \setminus \textrm{int}(S)$ is connected. The proof…

Complex Variables · Mathematics 2017-09-28 Kathryn A. Lindsey , Malik Younsi

The goal of this note is to prove the following theorem: Let $p_a(z) = z^2+a$ be a quadratic polynomial which has no irrational indifferent periodic points, and is not infinitely renormalizable. Then the Lebesgue measure of the Julia set…

Dynamical Systems · Mathematics 2016-09-06 Mikhail Lyubich

A generalization of the filled-in Julia set is presented using the multicomplex numbers and an algorithm is presented to visualize these sets in the tridimensional space. There are many ways to visualize these higher dimensional fractals…

Dynamical Systems · Mathematics 2025-05-05 Quentin Charles , Pierre-Olivier Parisé

Let $P: {\mathbb C} \to {\mathbb C}$ be a polynomial map with disconnected filled Julia set $K_P$ and let $z_0$ be a repelling or parabolic periodic point of $P$. We show that if the connected component of $K_P$ containing $z_0$ is…

Dynamical Systems · Mathematics 2023-09-06 Carsten L. Petersen , Saeed Zakeri

We prove fixed point results for branched covering maps $f$ of the plane. For complex polynomials $P$ with Julia set $J_P$ these imply that periodic cutpoints of some invariant subcontinua of $J_P$ are also cutpoints of $J_P$. We deduce…

Dynamical Systems · Mathematics 2021-01-21 Alexander Blokh , Lex Oversteegen , Vladlen Timorin

The control of postcritical sets of quadratic polynomials with a neutral fixed point is a main ingredient in the remarkable work of Buff and Ch\'eritat to construct quadratic Julia sets with positive area. Based on the Inou-Shishikura…

Dynamical Systems · Mathematics 2024-07-25 Hongyu Qu

We study the dynamics of a collection of families of transcendental entire functions which generalises the well-known exponential and cosine families. We show that for functions in many of these families the Julia set, the escaping set and…

Dynamical Systems · Mathematics 2016-01-26 D. J. Sixsmith

We study the dynamics of polynomials with coefficients in a non-Archimedean field $K,$ where $K$ is a field containing a dense subset of algebraic elements over a discrete valued field $k.$ We prove that every wandering Fatou component is…

Dynamical Systems · Mathematics 2010-05-14 Eugenio Trucco

We show that repelling periodic points are landing points of periodic rays for exponential maps whose singular value has bounded orbit. For polynomials with connected Julia sets, this is a celebrated theorem by Douady, for which we present…

Dynamical Systems · Mathematics 2014-12-08 Anna Miriam Benini , Mikhail Lyubich

Given a polynomial $p$, the degree of its Chebyshev's method $C_p$ is determined. If $p$ is cubic then the degree of $C_p$ is found to be $4,6$ or $7$ and we investigate the dynamics of $C_p$ in these cases. If a cubic polynomial $p$ is…

Dynamical Systems · Mathematics 2022-01-27 Tarakanta Nayak , Soumen Pal

In this paper we characterize $\w$-limit sets of dendritic Julia sets for quadratic maps. We use Baldwin's symbolic representation of these spaces as a non-Hausdorff itinerary space and prove that quadratic maps with dendritic Julia sets…

Dynamical Systems · Mathematics 2012-05-02 Andrew Barwell , Brian Raines

We show that the Julia set of the Feigenbaum polynomial has Hausdorff dimension less than~2 (and consequently it has zero Lebesgue measure). This solves a long-standing open question.

Dynamical Systems · Mathematics 2020-01-31 Artem Dudko , Scott Sutherland

If the preimage of a four-point set under a meromorphic function belongs to the real line, then the image of the real line is contained in a circle in the Riemann sphere. We include an application of this result to holomorphic dynamics: if…

Complex Variables · Mathematics 2009-04-15 Walter Bergweiler , Alexandre Eremenko

We show that, when a non-integrable rational map changes to an integrable one continuously, a large part of the Julia set of the map approach indeterminate points (IDP) of the map along algebraic curves. We will see that the IDPs are…

Exactly Solvable and Integrable Systems · Physics 2013-07-11 Satoru Saito , Noriko Saitoh , Hiromitsu Harada , Tsukasa Yumibayashi , Yuki Wakimoto

Let $P$ be a polynomial with a connected Julia set $J$. We use continuum theory to show that it admits a \emph{finest monotone map $\ph$ onto a locally connected continuum $J_{\sim_P}$}, i.e. a monotone map $\ph:J\to J_{\sim_P}$ such that…

Dynamical Systems · Mathematics 2016-01-25 A. Blokh , C. Curry , L. Oversteegen

We present new rectification theorems of degenerate quasi-conformal structures that give a meaning to quotients of Riemann surfaces with empty interior "fundamental domains". These techniques are used to define the unique renormalization of…

Complex Variables · Mathematics 2014-05-23 Ricardo Pérez Marco

Working within the polynomial quadratic family, we introduce a new point of view on bifurcations which naturally allows to see the seat of bifurcations as the projection of a Julia set of a complex dynamical system in dimension three. We…

Dynamical Systems · Mathematics 2019-09-25 Francois Berteloot , Tien-Cuong Dinh

We present the first example of a poly-time computable Julia set with a recurrent critical point: we prove that the Julia set of the Feigenbaum map is computable in polynomial time.

Dynamical Systems · Mathematics 2015-07-29 Artem Dudko , Michael Yampolsky