The Calabi-Yau problem, null curves, and Bryant surfaces

Abstract

In this paper we prove that every bordered Riemann surface M admits a complete proper null holomorphic embedding into a ball of the complex Euclidean 3-space C3. The real part of such an embedding is a complete conformal minimal immersion M R3 with bounded image. For any such M we also construct proper null holomorphic embeddings M C3 with a bounded coordinate function; these give rise to properly embedded null curves M SL2(C) and to properly immersed Bryant surfaces M H3 in the hyperbolic 3-space. In particular, we give the first examples of proper Bryant surfaces with finite topology and of hyperbolic conformal type. The main novelty when compared to the existing results in the literature is that we work with a fixed conformal structure on M. This is accomplished by introducing a conceptually new method based on complex analytic techniques. One of our main tools is an approximate solution to the Riemann-Hilbert boundary value problem for null curves in C3.