Shrinking targets versus recurrence: the quantitative theory
Let $X = [0,1]$, and let $T:X\to X$ be an expanding piecewise linear map sending each interval of linearity to $[0,1]$. For $\psi:\mathbb N\to\mathbb R_{\geq 0}$, $x\in X$, and $N\in\mathbb N$ we consider the recurrence counting function \[ R(x,N;T,\psi) := \#\{1\leq n\leq N: d(T^n x, x) < \psi(n...
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| Zusammenfassung: | Let $X = [0,1]$, and let $T:X\to X$ be an expanding piecewise linear map
sending each interval of linearity to $[0,1]$. For $\psi:\mathbb N\to\mathbb
R_{\geq 0}$, $x\in X$, and $N\in\mathbb N$ we consider the recurrence counting
function \[ R(x,N;T,\psi) := \#\{1\leq n\leq N: d(T^n x, x) < \psi(n)\}. \] We
show that for any $\varepsilon > 0$ we have \[ R(x,N;T,\psi) =
\Psi(N)+O\left(\Psi^{1/2}(N) \ (\log\Psi(N))^{3/2+\varepsilon}\right) \] for
$\mu$-almost all $x\in X$ and for all $N\in\mathbb N$, where $\Psi(N):= 2
\sum_{n=1}^N \psi(n)$. We also prove a generalization of this result to higher
dimensions. |
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| DOI: | 10.48550/arxiv.2410.22993 |