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The so-called "pinched disk" model of the Mandelbrot set is due to A.~Douady, J.~H.~Hubbard and W.~P.~Thurston. It can be described in the language of geodesic laminations. The combinatorial model is the quotient space of the unit disk…

Dynamical Systems · Mathematics 2017-05-31 Alexander Blokh , Lex Oversteegen , Ross Ptacek , Vladlen Timorin

Complex 1-variable polynomials with connected Julia sets and only repelling periodic points are called \emph{dendritic}. By results of Kiwi, any dendritic polynomial is semi-conjugate to a topological polynomial whose topological Julia set…

Dynamical Systems · Mathematics 2021-12-21 Alexander Blokh , Lex Oversteegen , Ross Ptacek , Vladlen Timorin

We interpret the combinatorial Mandelbrot set in terms of \it{quadratic laminations} (equivalence relations $\sim$ on the unit circle invariant under $\sigma_2$). To each lamination we associate a particular {\em geolamination} (the…

Dynamical Systems · Mathematics 2022-01-28 A. Blokh , L. Oversteegen , V. Timorin , R. Ptacek

To investigate the degree $d$ connectedness locus, Thurston studied \emph{$\sigma_d$-invariant laminations}, where $\sigma_d$ is the $d$-tupling map on the unit circle, and built a topological model for the space of quadratic polynomials…

The combinatorial Mandelbrot set is a continuum in the plane, whose boundary can be defined, up to a homeomorphism, as the quotient space of the unit circle by an explicit equivalence relation. This equivalence relation was described by…

Dynamical Systems · Mathematics 2022-01-28 Alexander Blokh , Lex Oversteegen , Vladlen Timorin

Thurston parameterized quadratic invariant laminations with a non-invariant lamination, the quotient of which yields a combinatorial model for the Mandelbrot set. As a step toward generalizing this construction to cubic polynomials, we…

Dynamical Systems · Mathematics 2022-01-28 Alexander Blokh , Lex Oversteegen , Ross Ptacek , Vladlen Timorin

In this Note, we present recent developments in the Renormalization Theory of quadratic polynomials and discuss their applications, with an emphasis on the MLC conjecture, the problem of local connectivity of the Mandelbrot set, and on its…

Dynamical Systems · Mathematics 2026-01-01 Dzmitry Dudko

A while ago MLC (the conjecture that the Mandelbrot set is locally connected) was proven for quasi-hyperbolic points by Douady and Hubbard, and for boundaries of hyperbolic components by Yoccoz. More recently Yoccoz proved MLC for all at…

Dynamical Systems · Mathematics 2016-09-06 Mikhail Lyubich

The famous MLC Conjecture states that the Mandelbrot set is locally connected, and it is considered by many to be the central conjecture in one-dimensional complex dynamics. Among others, it implies density of hyperbolicity in the quadratic…

Dynamical Systems · Mathematics 2018-01-08 Anna Miriam Benini

Local similarity between the Mandelbrot set and quadratic Julia sets manifests itself in a variety of ways. We discuss a combinatorial one, in the language of geodesic laminations. More precisely, we compare quadratic invariant laminations…

Dynamical Systems · Mathematics 2021-12-21 A. Blokh , L. Oversteegen , V. Timorin

Consider the one-parameter family of cubic polynomials defined by $f_t(z) =-\frac 32 t(-2z^3+3z^2)+1, t \in \mathbb{C}_2$. This family corresponds to a slice of the parameter space of cubic polynomials in $\mathbb{C}_2[z]$. We investigate…

Dynamical Systems · Mathematics 2024-01-18 Jacqueline Anderson , Emerald Stacy , Bella Tobin

We study complex one-dimensional parameter slices in a three-parameter family of rational maps with two free critical points, obtained by imposing the existence of periodic orbits with prescribed multipliers. Using explicit…

Dynamical Systems · Mathematics 2026-04-24 Pedro Iván Suárez Navarro

We prove a priori bounds for Feigenbaum quadratic polynomials, i.e., infinitely renormalizable polynomials $f_c: z\mapsto z^2+c$ of bounded type. It implies local connectivity of the corresponding Julia sets $J(f_c)$ and MLC (local…

Dynamical Systems · Mathematics 2026-01-01 Dzmitry Dudko , Mikhail Lyubich

To investigate the degree $d$ connectedness locus, Thur\-ston studied \emph{$\sigma_d$-invariant laminations}, where $\sigma_d$ is the $d$-tupling map on the unit circle, and built a topological model for the space of quadratic polynomials…

Dynamical Systems · Mathematics 2022-01-28 Alexander Blokh , Lex Oversteegen , Nikita Selinger , Vladlen Timorin , Sandeep Chowdary Vejandla

We study the bifurcation loci of quadratic (and unicritical) polynomials and exponential maps. We outline a proof that the exponential bifurcation locus is connected; this is an analog to Douady and Hubbard's celebrated theorem that (the…

Dynamical Systems · Mathematics 2009-01-21 Lasse Rempe , Dierk Schleicher

We solve the longstanding conjecture by Milnor (1993) concerning the connectedness locus $M_1$ of the family of quadratic rational maps tangent to the identity at $\infty$. We prove that this locus in homeomorphic to the Mandelbrot set $M$…

Dynamical Systems · Mathematics 2024-04-12 Carsten Lunde Petersen , Pascale Roesch

We give a topological description of the space of quadratic rational maps with superattractive two-cycles: its "non-escape locus" M2 (the analog of the Mandelbrot set M) is locally connected, it is the continuous image of M under a…

Dynamical Systems · Mathematics 2011-12-21 Dzmitry Dudko

This is a continuation of the series of notes on the dynamics of quadratic polynomials. We show the following Rigidity Theorem: Any combinatorial class contains at most one quadratic polynomial satisfying the secondary limbs condition with…

Dynamical Systems · Mathematics 2016-09-06 Mikhail Lyubich

We exhibit products of Mandelbrot sets in the two-dimensional complex parameter space of cubic polynomials. These products were observed by J. Milnor in computer experiments which inspired Lavaurs' proof of non local-connectivity for the…

Dynamical Systems · Mathematics 2016-09-06 Adam L. Epstein , Michael Yampolsky

Let $f(z) = z^2 + c$ be a quadratic polynomial, with c in the Mandelbrot set. Assume further that both fixed points of f are repelling, and that f is not renormalizable. Then we prove that the Julia set J of f is holomorphically removable…

Dynamical Systems · Mathematics 2007-05-23 Jeremy Kahn
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