Null sets and combinatorial covering properties

TL;DR

This paper constructs special subsets of the Cantor cube with complex null-additive and covering properties, demonstrating new relationships under weaker set-theoretic assumptions.

Contribution

It introduces novel constructions of sets with null-additive and covering properties using milder set-theoretic assumptions than previous works.

Findings

Constructed a continuum-sized set with all continuous images null-additive.

Identified a set with property $\gamma$ that is not null additive.

Analyzed products of Sierpiński sets in the context of covering properties.

Abstract

A subset of the Cantor cube is null-additive if its algebraic sum with any null set is null. We construct a set of cardinality continuum such that: all continuous images of the set into the Cantor cube are null-additive, it contains a homeomorphic copy of a set that is not null-additive, and it has the property $\gamma$, a strong combinatorial covering property. We also construct a nontrivial subset of the Cantor cube with the property $\gamma$ that is not null additive. Set-theoretic assumptions used in our constructions are far milder than used earlier by Galvin--Miller and Bartoszy\'nski--Rec{\l}aw, to obtain sets with analogous properties. We also consider products of Sierpi\'nski sets in the context of combinatorial covering properties.