preprint

Inserted: 17 oct 2023
Last Updated: 17 oct 2023

Year: 2023

Abstract:

We introduce new flatness coefficients, which we call $\iota$-numbers, for Ahlfors regular sets in metric spaces. We investigate the relation between Carleson-type geometric lemmas for $\iota$-numbers and other concepts related to quantitative rectifiability. We characterize uniform $1$-rectifiability in rather general metric spaces, and uniform $k$-rectfiability in Euclidean spaces, using $\iota$-numbers. The characterization of uniform $1$-rectifiability in the metric setting proceeds by quantifying an isometric embedding theorem due to Menger, and by an abstract argument that allows to pass from a local covering by continua to a global covering by $1$-regular connected sets. The Euclidean result, on the other hand, is a consequence of an abstract statement about approximation by generalized planes, which applies also to the study of low-dimensional sets in Heisenberg groups.