A Torelli type theorem for exp-algebraic curves

Abstract

An exp-algebraic curve consists of a compact Riemann surface S together with n equivalence classes of germs of meromorphic functions modulo germs of holomorphic functions, = \ [h1], ·s, [hn] \, with poles of orders d1, ·s, dn ≥ 1 at points p1, ·s, pn. This data determines a space of functions (respectively, a space of 1-forms 0) holomorphic on the punctured surface S' = S - \p1, ·s, pn\ with exponential singularities at the points p1, ·s, pn of types [h1], ·s, [hn], i.e., near pi any f ∈ is of the form f = gehi for some germ of meromorphic function g (respectively, any ω ∈ 0 is of the form ω = α ehi for some germ of meromorphic 1-form). For any ω ∈ 0 the completion of S' with respect to the flat metric |ω| gives a space S* = S' obtained by adding a finite set of Σi di points, and it is known that integration along curves produces a nondegenerate pairing of the relative homology H1(S*, ; ) with the deRham cohomology group defined by H1dR(S, ) := 0/d. There is a degree zero line bundle L associated to an exp-algebraic curve, with a natural isomorphism between 0 and the space W of meromorphic L-valued 1-forms which are holomorphic on S', so that H1(S*, ; ) maps to a subspace K ⊂ W*. We show that the exp-algebraic curve (S, ) is determined uniquely by the pair (L,\, K ⊂ W*).