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Quantum Transitions Between Classical Histories: Bouncing Cosmologies

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arxiv 1502.06770 v3 pith:JWXDOZJE submitted 2015-02-24 hep-th gr-qc

Quantum Transitions Between Classical Histories: Bouncing Cosmologies

classification hep-th gr-qc
keywords classicalquantumhistoriesprobabilitiespatchesstateconnectingdown
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In a quantum theory of gravity spacetime behaves classically when quantum probabilities are high for histories of geometry and field that are correlated in time by the Einstein equation. Probabilities follow from the quantum state. This quantum perspective on classicality has important implications: (a) Classical histories are generally available only in limited patches of the configuration space on which the state lives. (b) In a given patch states generally predict relative probabilities for an ensemble of possible classical histories. (c) In between patches classical predictability breaks down and is replaced by quantum evolution connecting classical histories in different patches. (d) Classical predictability can break down on scales well below the Planck scale, and with no breakdown in the classical equations of motion. We support and illustrate (a)-(d) by calculating the quantum transition across the de Sitter like throat connecting asymptotically classical, inflating histories in the no-boundary quantum state. This supplies probabilities for how a classical history on one side transitions and branches into a range of classical histories on the opposite side. We also comment on the implications of (a)-(d) for the dynamics of black holes and eternal inflation.

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