Kleene fixed-point theorem: Difference between revisions

This result is often attributed to [[Alfred Tarski]], but the original statement of [[Tarski's fixed point theorem]] is about monotone functions on complete lattices. Since all complete lattices are complete partial orders but not vice-versa, and since all monotone functions on complete lattices are Scott-continuous, Tarski's fixed point theorem is entailed by the present result. (It is not guaranteed that all non-empty subsets of a complete partial order are [[directed set|directed]]; a complete lattice C is a complete partial order with the additional properties that (i) all C's non-empty subsets are directed and (ii) for every non-empty subset of C the subset's [[upper set|upper closure]] is a [[filter (mathematics)|filter]].) Yet from a set-theoretic point of view Tarski's result seems the more fundamental of the two, in the following sense: proving Kleene's result in axiomatic set theory requires a definition of, and existence proof for, the ascending Kleene chain, and since axiomatic set theory includes no syntactic element whose semantics are comparable to those of the ellipsis "..." contained in the above informal definition, axiomatic set theory will require a different sort of definition of the ascending Kleene chain. An existence proof for that chain, defined as it must be in a rigorous axiomatic set theory, appears to requiresrequire use of Tarski's theorem (or an equivalent).