Spiders' webs in the Eremenko-Lyubich class

Lasse Rempe

Spiders' webs in the Eremenko-Lyubich class

Lasse Rempe

Pure Mathematics

Research output: Preprint/Working paper › Preprint

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Abstract

Consider the entire function $f(z)=\cosh(z)$. We show that the escaping set of this function - that is, the set of points whose orbits tend to infinity under iteration - has a structure known as a "spider's web". This disproves a conjecture of Sixsmith from 2020. In fact, we show that the "fast escaping set", i.e. the set of points whose orbits tend to infinity at an iterated exponential rate, is a spider's web. This answers a question of Rippon and Stallard from 2012. We also discuss a wider class of functions to which our results apply, and state some open questions.

Original language	English
Publication status	Published - 28 Oct 2024

Keywords

math.DS
math.CV
Primary 37F10, secondary 30D05

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2410.20998v1

Cite this

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N2 - Consider the entire function $f(z)=\cosh(z)$. We show that the escaping set of this function - that is, the set of points whose orbits tend to infinity under iteration - has a structure known as a "spider's web". This disproves a conjecture of Sixsmith from 2020. In fact, we show that the "fast escaping set", i.e. the set of points whose orbits tend to infinity at an iterated exponential rate, is a spider's web. This answers a question of Rippon and Stallard from 2012. We also discuss a wider class of functions to which our results apply, and state some open questions.

AB - Consider the entire function $f(z)=\cosh(z)$. We show that the escaping set of this function - that is, the set of points whose orbits tend to infinity under iteration - has a structure known as a "spider's web". This disproves a conjecture of Sixsmith from 2020. In fact, we show that the "fast escaping set", i.e. the set of points whose orbits tend to infinity at an iterated exponential rate, is a spider's web. This answers a question of Rippon and Stallard from 2012. We also discuss a wider class of functions to which our results apply, and state some open questions.

KW - math.DS

KW - math.CV

KW - Primary 37F10, secondary 30D05

M3 - Preprint

BT - Spiders' webs in the Eremenko-Lyubich class

ER -

Spiders' webs in the Eremenko-Lyubich class

Abstract

Keywords

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