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Three little paradoxes: Making sense of semiclassical gravity

André Großardt

2022AVS Quantum Science21 citationsDOIOpen Access PDF

Abstract

The author reviews the arguments most often raised against a fundamental coupling of classical spacetime to quantum matter. The author shows that an experiment by Page and Geilker does not exclude such a semiclassical theory but mandates an inclusion of an objective mechanism for wave function collapse. In this regard, the author presents a classification of semiclassical models defined by the way in which the wave function collapse is introduced. Two related types of paradoxes that have been discussed in the context of the necessity to quantize the gravitational field can be shown to not constrain the possibility of a semiclassical coupling. A third paradox, the possibility to signal faster than light via semiclassical gravity, is demonstrably avoided if certain conditions are met by the associated wave function collapse mechanism. In conclusion, all currently discussed models of semiclassical gravity can be made consistent with observation. Their internal theoretical consistency remains an open question.

Topics & Concepts

Semiclassical physicsSemiclassical gravityContext (archaeology)PhysicsTheoretical physicsQuantum gravityGravitational fieldClassical mechanicsField (mathematics)QuantumFunction (biology)Coupling (piping)Quantum mechanicsMathematicsQuantum dynamicsGeologyPure mathematicsQuantum processEngineeringBiologyMechanical engineeringEvolutionary biologyPaleontologyQuantum Mechanics and ApplicationsQuantum Electrodynamics and Casimir EffectCosmology and Gravitation Theories
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