Bounded cohomology classes from differential forms

Abstract

Let M be a complete hyperbolic n-manifold, n≥ 2. Via integration over geodesic simplices, any closed bounded differential 2-form on M defines a bounded cohomology class in H2b(M). It was proved by Barge and Ghys (for n=2) and by Battista et al. (for n>2) that, if M is closed, then this procedure defines an injective embedding of the (infinite-dimensional) space of closed differential 2-forms on M into H2b(M). We extend this result to the case when the fundamental group of M is of the first kind, i.e. its limit set is equal to the whole boundary at infinity of hyperbolic space (this holds, for example, when M has finite volume). Our argument is different from Barge and Ghys' original one, and relies on the following fact of independent interest: an L∞ function on the hyperbolic plane is determined by its integrals over all ideal triangles. We prove this fact by way of Fourier analysis on the hyperbolic plane.