Bounding the dimension of exceptional sets for orthogonal projections

It is well known that if $A \subseteq \mathbb{R}^n$ is an analytic set of Hausdorff dimension $a$, then $\dim_H(\pi_VA)=\min\{a,k\}$ for a.e.\ $V\in G(n,k)$, where $G(n,k)$ denotes the set of all $k$-dimensional subspaces of $\mathbb{R}^n$ and $\pi_V$ is the orthogonal projection of $A$ onto $V$. In...

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Hauptverfasser:	Cholak, Peter, Csornyei, Marianna, Lutz, Neil, Lutz, Patrick, Mayordomo, Elvira, Stull, D. M
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Schlagworte:	Mathematics - Classical Analysis and ODEs
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creator	Cholak, Peter Csornyei, Marianna Lutz, Neil Lutz, Patrick Mayordomo, Elvira Stull, D. M
description	It is well known that if $A \subseteq \mathbb{R}^n$ is an analytic set of Hausdorff dimension $a$, then $\dim_H(\pi_VA)=\min\{a,k\}$ for a.e.\ $V\in G(n,k)$, where $G(n,k)$ denotes the set of all $k$-dimensional subspaces of $\mathbb{R}^n$ and $\pi_V$ is the orthogonal projection of $A$ onto $V$. In this paper we study how large the exceptional set \begin{equation} \{V\in G(n,k) \mid \dim_H(\pi_V A) < s\} \end{equation} can be for a given $s\le\min\{a,k\}.$ We improve previously known estimates on the dimension of the exceptional set, and we show that our estimates are sharp for $k=1$ and for $k=n-1$. Hence we completely resolve this question for $n=3$.
doi_str_mv	10.48550/arxiv.2411.04959
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title	Bounding the dimension of exceptional sets for orthogonal projections
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