Mean surfaces in Half-Pipe space and infinitesimal Teichm\"uller theory

Abstract

We study a correspondence between smooth spacelike surfaces in Half-Pipe space HP3 and divergence-free vector fields on the hyperbolic plane H2. We show that a particular case involves harmonic Lagrangian vector fields on H2, which are related to mean surfaces in HP3. Consequently, we prove that the infinitesimal Douady-Earle extension is a harmonic Lagrangian vector field that corresponds to a mean surface in HP3 with prescribed boundary data at infinity. We establish both existence and, under certain assumptions, uniqueness results for harmonic Lagrangian extension of a vector field on the circle. Finally, we characterize the Zygmund and little Zygmund conditions and provide quantitative bounds in terms of the Half-Pipe width.