Geodesic structure of spacetime near singularities

Abstract

Geodesic flows emanating from an arbitrary point P in a manifold M carry important information about the geometric properties of M. These flows are characterized by Synge's world function and van Vleck determinant - important bi-scalars that also characterize quantum description of physical systems in M. If P is a regular point, these bi-scalars have well known expansions around their flat space expressions, quantifying local flatness and equivalence principle. We show that, if P is a singular point, the scaling behavior of these bi-scalars changes drastically, capturing the non-trivial structure of geodesic flows near singularities. This yields remarkable insights into classical structure of spacetime singularities and provides useful tool to study their quantum structure.