Bounding 2D Functions by Products of 1D Functions

Abstract

Given sets X,Y and a regular cardinal μ, let (X,Y,μ) be the statement that for any function f : X × Y μ, there are functions g1 : X μ and g2 : Y μ such that or all (x,y) ∈ X × Y, f(x,y) \ g1(x), g2(y) \. In ZFC, the statement (ω1, ω1, ω) is false. However, we show the theory ZF + ``the club filter on ω1 is normal'' + (ω1, ω1, ω) (which is implied by ZF + AD) implies that for every α < ω1 there is a ∈ (α,ω1) such that in some inner model, is measurable with Mitchell order α. There was an error in Welch's paper ``Characterizing Subsets of ω1 Constructible From a Real'', which he has retracted in a personal communication. Our paper originally referenced that paper. In this version of our paper, we are not using that result. Our consistency strength upper bound has changed accordingly.