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Holographic flows from CFT to the Kasner universe

Alexander Frenkel, Sean A. Hartnoll, Jorrit Kruthoff, Zhengyan D. Shi

2020Journal of High Energy Physics52 citationsDOIOpen Access PDF

Abstract

A bstract The Schwarzschild singularity is known to be classically unstable. We demonstrate a simple holographic consequence of this fact, focusing on a perturbation that is uniform in boundary space and time. Deformation of the thermal state of the dual CFT by a relevant operator triggers a nonzero temperature holographic renormalization group flow in the bulk. This flow continues smoothly through the horizon and, at late interior time, deforms the Schwarzschild singularity into a more general Kasner universe. We show that the deformed near-singularity, trans-horizon Kasner exponents determine specific non-analytic corrections to the thermal correlation functions of heavy operators in the dual CFT, in the analytically continued ‘near-singularity’ regime.

Topics & Concepts

PhysicsSingularityMathematical physicsSchwarzschild radiusHorizonHolographyOperator (biology)Apparent horizonSchwarzschild metricSpacetimeFlow (mathematics)Perturbation (astronomy)Ring singularityRenormalization groupBoundary (topology)UniverseClassical mechanicsInitial singularitySpace timeRenormalizationBoundary value problemPerturbation theory (quantum mechanics)Space (punctuation)Simple (philosophy)ThermalGravitational singularityTheoretical physicsNaked singularityQuantum field theory in curved spacetimeDeformation (meteorology)Quantum electrodynamicsDeriving the Schwarzschild solutionBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesAstrophysical Phenomena and Observations
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