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Predictivity lost, predictivity regained: A Miltonian cosmic censorship conjecture

Roberto Emparan

2020International Journal of Modern Physics D17 citationsDOIOpen Access PDF

Abstract

Cosmic censorship is known to fail in some well-controlled phenomena, calling into question the predictive power of General Relativity and opening up the possibility of observing Planck-scale physics. We propose that the cosmic censorship conjecture can be amended so that its spirit prevails. Naked singularities that, classically, have zero mass are allowed. Physically, these are Planck-sized “black holes”, which evaporate in a few Planck times. General Relativity fails only for a tiny interval in time, to then quickly regain control in a Miltonian evolution that returns us to the predictive paradise of Einstein’s equations. If this refinement of the conjecture is correct, then, even though Nature does allow to expose breakdowns in the smooth fabric of spacetime, it limits them to a mostly harmless minimum.

Topics & Concepts

Cosmic censorship hypothesisPhysicsConjectureTheoretical physicsNaked singularityGeneral relativityCOSMIC cancer databasePlanckGravitational singularityTheory of relativitySpecial relativityCensorshipOrbit (dynamics)False vacuumMathematical physicsCosmologyBlack hole (networking)Planck massPower (physics)AstronomyNoncommutative and Quantum Gravity TheoriesRelativity and Gravitational TheoryCosmology and Gravitation Theories