Model Theory of General von Neumann Algebras II: Group Actions and Crossed Products
Abstract
Expanding on previous work of the author, we initiate the model theoretic study of W*-dynamical systems. We axiomatize continuous weight-preserving group actions of G on von Neumann algebras for G a given locally compact Hausdorff group. Since our axiomatization is of continuous actions, the ultraproduct is defined so that the ultraproduct action of G is also continuous. Building on a theorem of Tomatsu, we show that continuous ultraproducts commute with crossed products. Finally, we prove a suite of results about computability of the aforementioned axiomatizations and of presentations of crossed products. In particular, we show how the crossed product construction is a useful tool for producing computable presentations, giving special attention to the group measure space construction of Murray and von Neumann. Thereby, we establish interesting connections to computable dynamics and computable measure theory.
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