Twisted Self-Similarity and the Einstein Vacuum Equations

TL;DR

This paper introduces a new form of self-similarity in Einstein vacuum equations, characterizes it geometrically, and demonstrates its relevance for understanding spacetime asymptotics and naked singularities.

Contribution

It systematically develops the theory of twisted self-similarity, providing geometric characterizations, existence and uniqueness of formal expansions, and links to global spacetime structures.

Findings

Formal expansions around the past null cone are constructed and shown to be unique.

Twisted self-similar solutions encompass all asymptotic behaviors in the small data regime.

The approach connects to Fefferman--Graham spacetimes and naked singularity exteriors.

Abstract

In the previous works [I. Rodnianski and Y. Shlapentokh-Rothman, Naked Singularities for the Einstein Vacuum Equations: The Exterior Solution, arXiv:1912.08478 and Y. Shlapentokh-Rothman, Naked Singularities for the Einstein Vacuum Equations: The Interior Solution, arXiv:2204.09891] we have introduced a new type of self-similarity for the Einstein vacuum equations characterized by the fact that the homothetic vector field may be spacelike on the past light cone of the singularity. In this work we give a systematic treatment of this new self-similarity. In particular, we provide geometric characterizations of spacetimes admitting the new symmetry and show the existence and uniqueness of formal expansions around the past null cone of the singularity which may be considered analogues of the well-known Fefferman--Graham expansions. In combination with previous results, our analysis will show that the twisted self-similar solutions are sufficiently general to describe all possible asymptotic behaviors for spacetimes in the small data regime which are self-similar and whose homothetic vector field is everywhere spacelike on an initial spacelike hypersurface. We present an application of this later fact to the understanding of the global structure of Fefferman--Graham spacetimes and the naked singularity exteriors of [I. Rodnianski and Y. Shlapentokh-Rothman, Naked Singularities for the Einstein Vacuum Equations: The Exterior Solution, arXiv:1912.08478]. Lastly, we observe that by an amalgamation of techniques from previous works, one may associate true solutions to the Einstein vacuum equations to each of our formal expansions in a suitable region of spacetime.