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On holonomy singularities in general relativity and the Cloc0,1-inextendibility of space-times

Jan Sbierski

2022Duke Mathematical Journal21 citationsDOIOpen Access PDF

Abstract

This paper investigates the structure of gravitational singularities at the level of the connection. We show in particular that for FLRW space-times with particle horizons a local holonomy, which is related to a gravitational energy, becomes unbounded near the big-bang singularity. This implies the Cloc0,1-inextendibility of such FLRW space-times. Again using an unbounded local holonomy, we also give a general theorem establishing the Cloc0,1-inextendibility of spherically symmetric weak null singularities which arise at the Cauchy horizon in the interior of black holes. Our theorem does not presuppose the mass-inflation scenario and in particular applies to the Reissner–Nordström-Vaidya space-times, as well as to space-times which arise from small and generic spherically symmetric perturbations of two-ended subextremal Reissner–Nordström initial data for the Einstein–Maxwell scalar field system. In previous work, Luk and Oh proved the C2-formulation of strong cosmic censorship for this latter class of space-times—and based on their work we improve this to a Cloc0,1-formulation of strong cosmic censorship.

Topics & Concepts

Cosmic censorship hypothesisHolonomyGeneral relativityGravitational singularityPhysicsFriedmann–Lemaître–Robertson–Walker metricEnergy conditionMathematical physicsClassical mechanicsTheoretical physicsUniverseQuantum mechanicsBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesAdvanced Mathematical Physics Problems
On holonomy singularities in general relativity and the Cloc0,1-inextendibility of space-times | Litcius