Litcius/Paper detail

Bra-ket wormholes in gravitationally prepared states

Yiming Chen, Victor Gorbenko, Juan Maldacena

2021Journal of High Energy Physics160 citationsDOIOpen Access PDF

Abstract

A bstract We consider two dimensional CFT states that are produced by a gravitational path integral. As a first case, we consider a state produced by Euclidean AdS 2 evolution followed by flat space evolution. We use the fine grained entropy formula to explore the nature of the state. We find that the naive hyperbolic space geometry leads to a paradox. This is solved if we include a geometry that connects the bra with the ket, a bra-ket wormhole. The semiclassical Lorentzian interpretation leads to CFT state entangled with an expanding and collapsing Friedmann cosmology. As a second case, we consider a state produced by Lorentzian dS 2 evolution, again followed by flat space evolution. The most naive geometry also leads to a similar paradox. We explore several possible bra-ket wormholes. The most obvious one leads to a badly divergent temperature. The most promising one also leads to a divergent temperature but by making a projection onto low energy states we find that it has features that look similar to the previous Euclidean case. In particular, the maximum entropy of an interval in the future is set by the de Sitter entropy.

Topics & Concepts

PhysicsSemiclassical physicsWormholeEuclidean geometryTheoretical physicsEntropy (arrow of time)Mathematical physicsGravitationInterpretation (philosophy)Hyperbolic spaceEuclidean spaceClassical mechanicsAnti-de Sitter spaceSpacetimeBraneSpace (punctuation)De Sitter universeDe Sitter spaceState (computer science)Curved spaceVacuum statePlanck massGeometryBoltzmann's entropy formulaQuantum mechanicsPlanckGravitational collapsePath integral formulationConfiguration spaceBlack Holes and Theoretical PhysicsCosmology and Gravitation TheoriesNoncommutative and Quantum Gravity Theories