Hardy spaces on Riemann surfaces under ramified coverings

Abstract

We extend the theory of indefinite Hardy spaces on finite bordered Riemann surfaces to the setting of ramified analytic coverings. Given a finite n-sheeted ramified covering F S1 S2 of finite bordered Riemann surfaces satisfying a spin-compatibility hypothesis, we construct (i) the direct image of a unitary flat vector bundle 11 on the double X1 under F, taking full account of the ramification divisor RF and establishing the extension across the branch locus via a careful local analysis; (ii) a canonical matrix function G2 encoding the parahermitian structure on X2, together with the induced representation χ2 of πXX2p0; (iii) an explicit isometric isomorphism ϕF H2,J1(p)(S1,11) \;\; H2,J2(p)(S2,22) between the associated Hardy-Kreın spaces, provided that h0(X1,11)=0 and that the branch locus is disjoint from ∂ S2. We then develop the resulting operator theory in terms of vessels and Bezoutian operators. To each object in the category RH of finite bordered surfaces with unitary flat bundles we attach a triangular vessel whose input and output spaces are the Hardy-Kreın spaces on the two surfaces; the Bezoutian of the vessel is expressed as a finite-rank operator on H2 whose kernel is built from bounded holomorphic point-evaluation functionals in H2 evaluated at the interior ramification images F(rν)∈ S2, consistently with the boundary-transversality hypothesis ∂ S2 BF= \\. We prove that the assignment (S,,J) H2,J(p)(S,Δ) extends to a covariant functor from RH (with ramified morphisms) to the category of Kreın spaces.