Expansive

This article is about mathematical expansivity. For thermal, see expansivity. For other, see expansion (disambiguation) and Expanse.

In mathematics, the notion of expansivity formalizes the notion of points moving away from one another under the action of an iterated function. The idea of expansivity is fairly rigid, as the definition of positive expansivity, below, as well as the Schwarz-Ahlfors-Pick theorem demonstrate.

Definition

If $(X,d)$ is a metric space, a homeomorphism $f\colon X\to X$ is said to be expansive if there is a constant

\varepsilon _{0}>0,

called the expansivity constant, such that for any pair of points $x\neq y$ in $X$ there is an integer $n$ such that

d(f^{n}(x),f^{n}(y))\geq \varepsilon _{0}

Note that in this definition, $n$ can be positive or negative, and so $f$ may be expansive in the forward or backward directions.

The space $X$ is often assumed to be compact, since under that assumption expansivity is a topological property; i.e. if $d'$ is any other metric generating the same topology as $d$ , and if $f$ is expansive in $(X,d)$ , then $f$ is expansive in $(X,d')$ (possibly with a different expansivity constant).

f\colon X\to X

is a continuous map, we say that $X$ is positively expansive (or forward expansive) if there is a

\varepsilon _{0}

such that, for any $x\neq y$ in $X$ , there is an $n\in \mathbb {N}$ such that $d(f^{n}(x),f^{n}(y))\geq \varepsilon _{0}$ .

Theorem of uniform expansivity

Given f an expansive homeomorphism, the theorem of uniform expansivity states that for every $\epsilon >0$ and $\delta >0$ there is an $N>0$ such that for each pair $x,y$ of points of $X$ such that $d(x,y)>\epsilon$ , there is an $n\in \mathbb {Z}$ with $\vert n\vert \leq N$ such that

d(f^{n}(x),f^{n}(y))>c-\delta ,

where $c$ is the expansivity constant of $f$ (proof).

Discussion

Positive expansivity is much stronger than expansivity. In fact, one can prove that if $X$ is compact and $f$ is a positively expansive homeomorphism, then $X$ is finite (proof).

External links

Expansive dynamical systems on scholarpedia

This article incorporates material from expansive on PlanetMath, which is licensed under the Creative Commons Attribution/Share-Alike License. This article incorporates material from uniform expansivity on PlanetMath, which is licensed under the Creative Commons Attribution/Share-Alike License.

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