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On Self-Similar Sets with Overlaps and Inverse Theorems for Entropy in $mathbb {R}^d$

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On Self-Similar Sets with Overlaps and Inverse Theorems for Entropy in $mathbb {R}^d$ Synopsis

The author studies self-similar sets and measures on $\mathbb{R}^{d}$. Assuming that the defining iterated function system $\Phi$ does not preserve a proper affine subspace, he shows that one of the following holds: (1) the dimension is equal to the trivial bound (the minimum of $d$ and the similarity dimension $s$); (2) for all large $n$ there are $n$-fold compositions of maps from $\Phi$ which are super-exponentially close in $n$; (3) there is a non-trivial linear subspace of $\mathbb{R}^{d}$ that is preserved by the linearization of $\Phi$ and whose translates typically meet the set or measure in full dimension. In particular, when the linearization of $\Phi$ acts irreducibly on $\mathbb{R}^{d}$, either the dimension is equal to $\min\{s,d\}$ or there are super-exponentially close $n$-fold compositions. The author gives a number of applications to algebraic systems, parametrized systems, and to some classical examples. The main ingredient in the proof is an inverse theorem for the entropy growth of convolutions of measures on $\mathbb{R}^{d}$, and the growth of entropy for the convolution of a measure on the orthogonal group with a measure on $\mathbb{R}^{d}$. More generally, this part of the paper applies to smooth actions of Lie groups on manifolds.

About This Edition

ISBN: 9781470441777
Publication date:
Author: Michael Hochman
Publisher: American Mathematical Society
Format: Paperback
Pagination: 100 pages
Series: Memoirs of the American Mathematical Society
Genres: Calculus and mathematical analysis