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Primary Spaces, Mackey's Obstruction, and the Generalized Barycentric Decomposition

arXiv:1203.5723 · doi:10.4310/JSG.2015.v13.n1.a3

Abstract

We call a hamiltonian N-space \emph{primary} if its moment map is onto a single coadjoint orbit. The question has long been open whether such spaces always split as (homogeneous) x (trivial), as an analogy with representation theory might suggest. For instance, Souriau's \emph{barycentric decomposition theorem} asserts just this when N is a Heisenberg group. For general N, we give explicit examples which do not split, and show instead that primary spaces are always flat bundles over the coadjoint orbit. This provides the missing piece for a full "Mackey theory" of hamiltonian G-spaces, where G is an overgroup in which N is normal.

23 pages, 1 figure. Final preprint version, to appear in Journal of Symplectic Geometry