Dye's Theorem and Gleason's Theorem for AW*-algebras

Abstract

We prove that any map between projection lattices of AW-algebras A and B, where A has no Type I2 direct summand, that preserves orthocomplementation and suprema of arbitrary elements, is a restriction of a normal Jordan -homomorphism between A and B. This allows us to generalize Dye's Theorem from von Neumann algebras to AW-algebras. We show that Mackey-Gleason-Bunce-Wright Theorem can be extended to homogeneous AW-algebras of Type I. The interplay between Dye's Theorem and Gleason's Theorem is shown. As an application we prove that Jordan -homomorphims are commutatively determined. Another corollary says that Jordan parts of AW-algebras can be reconstructed from posets of their abelian subalgebras.