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Related papers: Degree-d-invariant laminations

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This paper studies the space of degree $d>1$ invariant q-laminations, i.e., geodesic laminations invariant under the $d$-tupling map of the circle and associated with equivalence relations. Our main construction associates a q-lamination…

Dynamical Systems · Mathematics 2026-04-28 Alexander Blokh , Lex Oversteegen , Vladlen Timorin

The core entropy of polynomials, recently introduced by W. Thurston, is a dynamical invariant which can be defined purely in combinatorial terms, and provides a useful tool to study parameter spaces of polynomials. The theory of core…

Dynamical Systems · Mathematics 2014-09-12 Giulio Tiozzo

Laminations are a combinatorial and topological way to study Julia sets. Laminations give information about the structure of parameter space of degree $d$ polynomials with connected Julia sets. We first study fixed point portraits in…

Dynamical Systems · Mathematics 2023-08-01 Md Abdul Aziz , Brittany Burdette , John Mayer

We develop several combinatorial notions about laminations, some with clear implications for parameter space. We introduce a simplified class of laminations called finite dynamical laminations (FDL). In order to count FDL, we introduce…

Dynamical Systems · Mathematics 2026-01-19 Forrest M. Hilton

We define the (dynamical) core of a topological polynomial (and the associated lamination). This notion extends that of the core of a unimodal interval map. Two explicit descriptions of the core are given: one related to periodic objects…

Dynamical Systems · Mathematics 2016-01-18 Alexander Blokh , Lex Oversteegen , Ross Ptacek , Vladlen Timorin

We study the correspondence between unicritical laminations and maximally critical laminations with rotational and identity return polygons. Laminations are a combinatorial and topological way to study Julia sets. Laminations give…

Dynamical Systems · Mathematics 2023-08-01 Brittany Burdette , Caleb Falcione , Cameron Hale , John Mayer

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

Thurston defined invariant laminations, i.e. collections of chords of the unit circle $S^1$ (called \emph{leaves}) that are pairwise disjoint inside the open unit disk and satisfy a few dynamical properties. To be directly associated to a…

Dynamical Systems · Mathematics 2016-01-18 Alexander M. Blokh , Debra Mimbs , Lex G. Oversteegen , Kirsten I. S. Valkenburg

This paper studies polynomials with core entropy zero. We give several characterizations of polynomials with core entropy zero. In particular, we show that a degree d post-critically finite polynomial f has core entropy zero if and only if…

Dynamical Systems · Mathematics 2025-09-30 Yusheng Luo , Insung Park

Thurston introduced $\si_d$-invariant laminations (where $\si_d(z)$ coincides with $z^d:\ucirc\to \ucirc$, $d\ge 2$). He defined \emph{wandering $k$-gons} as sets $\T\subset \ucirc$ such that $\si_d^n(\T)$ consists of $k\ge 3$ distinct…

Dynamical Systems · Mathematics 2016-01-18 Alexander Blokh , Clinton Curry , Lex Oversteegen

This paper is a first of a series of three papers which study eta invariants for laminations. In this first paper, we extend the results of Higson and Roe to deal with regular (unbounded) operators and more importantly to take into account…

K-Theory and Homology · Mathematics 2011-11-22 Moulay-Tahar Benameur , Indrava Roy

As defined by W. Thurston, the core entropy of a polynomial is the entropy of the restriction to its Hubbard tree. For each d >= 2, we study the core entropy as a function on the parameter space of polynomials of degree d, and prove it…

Dynamical Systems · Mathematics 2019-06-18 Yan Gao , Giulio Tiozzo

Thurston introduced $\si_d$-invariant laminations (where $\si_d(z)$ coincides with $z^d:\ucirc\to \ucirc$, $d\ge 2$) and defined \emph{wandering $k$-gons} as sets $\T\subset \ucirc$ such that $\si_d^n(\T)$ consists of $k\ge 3$ distinct…

Dynamical Systems · Mathematics 2016-01-18 A. Blokh , C. Curry , L. Oversteegen

In this paper, we study uniform rooted plane trees with given degree sequence. We show, under some natural hypotheses on the degree sequence, that these trees converge toward the so-called Inhomogeneous Continuum Random Tree after…

Probability · Mathematics 2025-11-24 Gabriel Berzunza Ojeda , Cecilia Holmgren , Paul Thévenin

Thurston introduced \emph{invariant (quadratic) laminations} in his 1984 preprint as a vehicle for understanding the connected Julia sets and the parameter space of quadratic polynomials. Important ingredients of his analysis of the angle…

Dynamical Systems · Mathematics 2021-01-21 Sourav Bhattacharya , Alexander Blokh , Dierk Schleicher

This article introduces a finite piecewise Euclidean cell complex homeomorphic to the space of monic centered complex polynomials of degree $d$ whose critical values lie in a fixed closed rectangular region. We call this the branched…

Geometric Topology · Mathematics 2024-10-07 Michael Dougherty , Jon McCammond

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

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

We study irreducible surfaces of degree d in $\mathbb{P}^3$ that contain a line of multiplicity d-1 (monoidal surfaces) or d-2 (submonoidal surfaces). We relate them to congruences of lines and Cremona transformations. Many of our results…

Algebraic Geometry · Mathematics 2023-06-05 Igor V. Dolgachev

Given any postsingularly finite exponential function $p_\lambda(z) = \lambda \exp(z)$ where $\lambda \in \C^*$, we construct a sequence of postcritically finite unicritical polynomials $p_{d,\lambda_d}(z) = \lambda_d(1+\frac{z}{d})^d$ that…

Dynamical Systems · Mathematics 2023-05-30 Malavika Mukundan
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