Mathematics – Functional Analysis
Scientific paper
2007-09-13
Mathematics
Functional Analysis
30 pages, 1 figure, 1 table
Scientific paper
The Hardy space H^2(R) for the upper half plane together with a unimodular function group representation u(\lambda) = \exp(i(\lambda_1\psi_1 + ... + \lambda_n\psi_n)) for \lambda in R^n, gives rise to a manifold M of orthogonal projections for the subspaces u(\lambda)H^2(R) of L^2(R). For classes of admissible functions \psi_i the strong operator topology closures of M and M \cup M^\perp are determined explicitly as various n-balls and n-spheres. The arguments used are direct and rely on the analysis of oscillatory integrals and Hilbert space geometry. Some classes of these closed projection manifolds are classified up to unitary equivalence. In particular the Fourier-Plancherel 2-sphere and the hyperbolic 3-sphere of Katavolos and Power appear as distinguished special cases admitting nontrivial unitary automorphisms groups which are explicitly described.
Levene Rupert H.
Power Stephen C.
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