Persistence modules, symplectic Banach-Mazur distance and Riemannian metrics

Abstract

We use persistence modules and their corresponding barcodes to quantitatively distinguish between different fiberwise star-shaped domains in the cotangent bundle of a fixed manifold. The distance between two fiberwise star-shaped domains is measured by a non-linear version of the classical Banach-Mazur distance, called symplectic Banach-Mazur distance and denoted by dSBM. The relevant persistence modules come from filtered symplectic homology and are stable with respect to dSBM. Our main focus is on the space of unit codisc bundles of orientable surfaces of positive genus, equipped with Riemannian metrics. We consider some questions about large scale-geometry of this space and in particular we give a construction of a quasi-isometric embedding of (Rn,|· |∞) into this space for all n∈ N. On the other hand, in the case of domains in T*S2, we can show that the corresponding metric space has infinite diameter. Finally, we discuss the existence of closed geodesics whose energies can be controlled.