Coding and reshaping when there are no sharps
Abstract
Assuming 0^sharp does not exist, kappa is an uncountable cardinal and for all cardinals lambda with kappa <= lambda < kappa^{+ omega}, 2^lambda = lambda^+, we present a ``mini-coding'' between kappa and kappa^{+ omega}. This allows us to prove that any subset of kappa^{+ omega} can be coded into a subset, W of kappa^+ which, further, ``reshapes'' the interval [kappa, kappa^+), i.e., for all kappa < delta < kappa^+, kappa = (card delta)^{L[W cap delta]}. We sketch two applications of this result, assuming 0^sharp does not exist. First, we point out that this shows that any set can be coded by a real, via a set forcing. The second application involves a notion of abstract condensation, due to Woodin. Our methods can be used to show that for any cardinal mu, condensation for mu holds in a generic extension by a set forcing.
Keywords
Cite
@article{arxiv.math/9201249,
title = {Coding and reshaping when there are no sharps},
author = {Saharon Shelah and Lee Stanley},
journal= {arXiv preprint arXiv:math/9201249},
year = {2016}
}