Maximal extensions and singularities in inflationary spacetimes

Abstract

Extendibility of inflationary spacetimes with flat spatial geometry is investigated. We find that the past boundary of an inflationary spacetime becomes a so-called parallely propagated curvature singularity if the ratio H/a2 diverges at the boundary, where H and a represent the time derivative of the Hubble parameter and the scale factor, respectively. On the other hand, if the ratio H/a2 converges, then the past boundary is regular and continuously extendible. We also develop a method to judge the continuous (C0)extendibility of spacetime in the case of slow-roll inflation driven by a canonical scalar field. As applications of this method, we find that Starobinsky inflation has a C0 parallely propagated curvature singularity, but a small field inflation model with a Higgs-like potential does not. We also find that an inflationary solution in a modified gravity theory with limited curvature invariants is free of such a singularity and is smoothly extendible.