Resolvability in c.c.c. generic extensions

Abstract

Every crowded space X is ω-resolvable in the c.c.c generic extension VFn(|X|,2) of the ground model. We investigate what we can say about λ-resolvability in c.c.c-generic extensions for λ>ω? A topological space is "monotonically ω1-resolvable" if there is a function f:X ω1 such that \x∈ X: f(x) α \⊂denseX for each α<ω1. We show that given a T1 space X the following statements are equivalent: (1) X is ω1-resolvable in some c.c.c-generic extension, (2) X is monotonically ω1-resolvable. (3) X is ω1-resolvable in the Cohen-generic extension VFn(ω1,2). We investigate which spaces are monotonically ω1-resolvable. We show that if a topological space X is c.c.c, and ω1 (X) |X|<ωω, then X is monotonically ω1-resolvable. On the other hand, it is also consistent, modulo the existence of a measurable cardinal, that there is a space Y with |Y|=(Y)=ω which is not monotonically ω1-resolvable. The characterization of ω1-resolvability in c.c.c generic extension raises the following question: is it true that crowded spaces from the ground model are ω-resolvable in VFn(ω,2)? We show that (i) if V=L then every crowded c.c.c. space X is ω-resolvable in VFn(ω,2), (ii) if there is no weakly inaccesssible cardinals, then every crowded space X is ω-resolvable in VFn(ω1,2). On the other hand, it is also consistent that there is a crowded space X with |X|=(X)=ω1 such that X remains irresolvable after adding a single Cohen real.