The density theorem for projective representations via twisted group von Neumann algebras

Abstract

We consider converses to the density theorem for irreducible, projective, unitary group representations restricted to lattices using the dimension theory of Hilbert modules over twisted group von Neumann algebras. We show that under the right assumptions, the restriction of a σ-projective unitary representation π of a group G to a lattice extends to a Hilbert module over the twisted group von Neumann algebra L(,σ). We then compute the center-valued von Neumann dimension of this Hilbert module. For abelian groups with 2-cocycle satisfying Kleppner's condition, we show that the center-valued von Neumann dimension reduces to the scalar value dπ vol(G/), where dπ is the formal dimension of π and vol(G/) is the covolume of in G. We apply our results to characterize the existence of multiwindow super frames and Riesz sequences associated to π and . In particular, we characterize when a lattice in the time-frequency plane of a second countable, locally compact abelian group admits a Gabor frame or Gabor Riesz sequence.