Pickrell, Doug \(H^ 4(BK,{\mathbb Z})\) and operator algebras. (English) Zbl 1087.46041 J. Lie Theory 14, No. 1, 199-213 (2004). Let \(K\) be a compact Lie group and let \(BK\) be a classifying space for \(K\). Let \(U(K,{\mathbb T})\) denote the unitary group of the abelian von Neumann algebra \(L^\infty K\). Left translation induces an action of \(K\) on \(U(K,{\mathbb T})\). There is a natural isomorphism between the cohomology groups \(H^4(BK,{\mathbb Z})\) and \(H^2_K(U(K,{\mathbb T})/{\mathbb T})\), giving an identification between elements \(l\in H^4(BK,{\mathbb Z})\) and isomorphism classes of abelian noncentral extensions \(E_l\): \[ 0\rightarrow {\mathbb T}\rightarrow U(K,{\mathbb T})\rightarrow E_l\rightarrow K\rightarrow 0. \] Building on the seminal work [J. Feldman and C. C. Moore, Trans. Am. Math. Soc. 234, 325–359 (1977; Zbl 0369.22010)], the author constructs, when \(K\) is connected and semisimple, a faithful representation of the above exact sequence of the form \[ 0\rightarrow {\mathbb T}\rightarrow N_{U({\mathcal M})} ({\mathcal A})\rightarrow \text{ Aut} ({\mathcal M},{\mathcal A})\rightarrow \text{ Out} ({\mathcal M},{\mathcal A})\rightarrow 0, \] where \({\mathcal M}={\mathcal M}(R,\sigma)\) is a type \(II_1\) factor defined by an ergodic countable equivalence relation \(R\) on \(K\) and a cocycle \(\sigma \in H^2(R,{\mathbb T})\), and \({\mathcal A}=L^\infty K\) is a Cartan subalgebra in \({\mathcal M}\). He also poses, for every level \(l\), the question of existence of a factor \({\mathcal M}_l\), a group \({\mathcal E}\subset \text{ Aut}({\mathcal M}_l)\), and of an extension equivalent to the extension of \(E_l\), of the form \[ 0\rightarrow {\mathbb T}\rightarrow U({\mathcal M}_l)\rightarrow {\mathcal E}\rightarrow K\rightarrow 0. \] Such a realization of \(H^4(BK,{\mathbb Z})\) is thought to play a role in elliptic cohomology. The paper concludes with a discussion of the case \(K=\text{ Spin}(n)\). Reviewer: Florin P. Boca (Urbana-Champaign) MSC: 46L10 General theory of von Neumann algebras 46M20 Methods of algebraic topology in functional analysis (cohomology, sheaf and bundle theory, etc.) 22D40 Ergodic theory on groups 22E67 Loop groups and related constructions, group-theoretic treatment 46L55 Noncommutative dynamical systems Keywords:group cohomology; extensions; von Neumann algebras; Feldman-Moore theory; spin structure. Citations:Zbl 0369.22010 PDFBibTeX XMLCite \textit{D. Pickrell}, J. Lie Theory 14, No. 1, 199--213 (2004; Zbl 1087.46041) Full Text: EuDML EMIS