Purely 1-unrectifiable metric spaces and locally flat Lipschitz functions

We characterize compact metric spaces whose locally flat Lipschitz functions separate points uniformly as exactly those that are purely 1-unrectifiable, resolving a problem of Weaver. We subsequently use this geometric characterization to answer several questions in Lipschitz analysis. Notably, it f...

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Bibliographic Details
Published in:Transactions of the American Mathematical Society 2022-05, Vol.375 (5), p.3529-3567
Main Authors: Ramón J. Aliaga, Chris Gartland, Colin Petitjean, Antonín Procházka
Format: Article
Language:English
Subjects:
Mathematics
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Summary:We characterize compact metric spaces whose locally flat Lipschitz functions separate points uniformly as exactly those that are purely 1-unrectifiable, resolving a problem of Weaver. We subsequently use this geometric characterization to answer several questions in Lipschitz analysis. Notably, it follows that the Lipschitz-free space \mathcal {F}(M) over a compact metric space M is a dual space if and only if M is purely 1-unrectifiable. Furthermore, we establish a compact determinacy principle for the Radon-Nikodým property (RNP) and deduce that, for any complete metric space M, pure 1-unrectifiability is actually equivalent to some well-known Banach space properties of \mathcal {F}(M) such as the RNP and the Schur property. A direct consequence is that any complete, purely 1-unrectifiable metric space isometrically embeds into a Banach space with the RNP. Finally, we provide a possible solution to a problem of Whitney by finding a rectifiability-based description of 1-critical compact metric spaces, and we use this description to prove the following: a bounded turning tree fails to be 1-critical if and only if each of its subarcs has \sigma-finite Hausdorff 1-measure.
ISSN:0002-9947
1088-6850
DOI:10.1090/tran/8591