A transference principle for involution-invariant functional Hilbert spaces

Abstract

Let σ : Cd → Cd be an affine-linear involution such that Jσ = -1 and let U, V be two domains in Cd. Let φ : U → V be a σ-invariant 2-proper map such that Jφ is affine-linear and let H(U) be a σ-invariant reproducing kernel Hilbert space of complex-valued holomorphic functions on U. It is shown that the space Hφ(V):=\f ∈ Hol(V) : Jφ · f φ ∈ H(U)\ endowed with the norm \|f\|φ :=\|Jφ · f φ\| H(U) is a reproducing kernel Hilbert space and the linear mapping φ defined by φ(f) = Jφ · f φ, f ∈ Hol(V), is a unitary from Hφ(V) onto \f ∈ H(U) : f = -f σ\. Moreover, a neat formula for the reproducing kernel φ of Hφ(V) in terms of the reproducing kernel of H(U) is given. The above scheme is applicable to symmetrized bidisc, tetrablock, d-dimensional fat Hartogs triangle and d-dimensional egg domain. Although some of these are known, this allows us to obtain an analog of von Neumann's inequality for contractive tuples naturally associated with these domains.