Generalized Pseudo-Anosov Maps and Hubbard Trees

TL;DR

This paper explores the connection between quadratic polynomial dynamics and surface homeomorphisms, establishing conditions under which generalized pseudo-Anosov maps can be constructed from Hubbard trees.

Contribution

It introduces crossing-free Hubbard trees and characterizes when quadratic polynomials can be extended to generalized pseudo-Anosov homeomorphisms.

Findings

Crossing-free Hubbard trees are precisely those associated with constructible generalized pseudo-Anosov maps.

The paper provides a criterion to determine when a quadratic polynomial's dynamics extend to a generalized pseudo-Anosov homeomorphism.

A new link between complex polynomial dynamics and surface homeomorphisms is established.

Abstract

In this project, we develop a new connection between the dynamics of quadratic polynomials on the complex plane and the dynamics of homeomorphisms of surfaces. In particular, given a quadratic polynomial, we investigate whether one can construct an extension of it which is a generalized pseudo-Anosov homeomorphism. Generalized pseudo-Anosov means it preserves a pair of foliations with infinitely many singularities that accumulate on finitely many points. We determine for which quadratic polynomials such an extension exists. The construction is related to the dynamics on the Hubbard tree, which is a forward invariant subset of the filled Julia set containing the critical orbit. We define a type of Hubbard trees, which we call crossing-free, and show that these are precisely the Hubbard trees for which one can construct a generalized pseudo-Anosov map.