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Locally Mediated Entanglement in Linearized Quantum Gravity

Marios Christodoulou, Andrea Di Biagio, Markus Aspelmeyer, Časlav Brukner, Carlo Rovelli, Richard Howl

2023Physical Review Letters101 citationsDOIOpen Access PDF

Abstract

The current interest in laboratory detection of entanglement mediated by gravity was sparked by an information-theoretic argument: entanglement mediated by a local field certifies that the field is not classical. Previous derivations of the effect modeled gravity as instantaneous; here we derive it from linearized quantum general relativity while keeping Lorentz invariance explicit, using the path-integral formalism. In this framework, entanglement is clearly mediated by a quantum feature of the field. We also point out the possibility of observing "retarded" entanglement, which cannot be explained by an instantaneous interaction. This is a difficult experiment for gravity, but is plausible for the analogous electromagnetic case.

Topics & Concepts

Quantum entanglementPhysicsQuantum gravityGeneral relativityLorentz transformationQuantum field theorySpin foamPath integral formulationQuantumClassical mechanicsSquashed entanglementLorentz covarianceFormalism (music)Theoretical physicsQuantum mechanicsLoop quantum gravityArtVisual artsMusicalQuantum Mechanics and ApplicationsQuantum Information and CryptographyMechanical and Optical Resonators
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