Fat and thin sets for doubling measures in Euclidean space (Q2860882)

After classifying subsets of \(\mathbb R^n\) into six classes according to their size for doubling measures (precisely: very fat (thin) sets; fairly fat (thin) sets; minimally fat (thin) sets), the authors study certain relations between doubling measures and these sets, with emphasis given to uniform Cantor sets. For a clearer idea of the content of the paper, a couple of theorems are quoted.NEWLINENEWLINETheorem 2. Let \(E_1,\dots,E_n\) be sets in \([0,1]\) of Lebesgue measure zero, and \(E:=E_1\times \dots\times E_n\). Then \(E\) is very thin if and only if so is some \(E_i\); while \(E\) is minimally thin if and only if so are all \(E_i\).NEWLINENEWLINETheorem 4. Let \(E_1,\dots,E_n\) be uniform Cantor sets in \([0,1]\) of positive Lebesgue measure, and \(E:=E_1\times \dots\times E_n\). Then \(E\) is very fat if and only if so are all \(E_i\); while \(E\) is minimally fat if and only if so is some \(E_i\).