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Redundantly Amplified Information Suppresses Quantum Correlations in Many-Body Systems

Davide Girolami, Akram Touil, Bin Yan, Sebastian Deffner, W. H. Zurek

2022Physical Review Letters22 citationsDOIOpen Access PDF

Abstract

We establish bounds on quantum correlations in many-body systems. They reveal what sort of information about a quantum system can be simultaneously recorded in different parts of its environment. Specifically, independent agents who monitor environment fragments can eavesdrop only on amplified and redundantly disseminated-hence, effectively classical-information about the decoherence-resistant pointer observable. We also show that the emergence of classical objectivity is signaled by a distinctive scaling of the conditional mutual information, bypassing hard numerical optimizations. Our results validate the core idea of quantum Darwinism: objective classical reality does not need to be postulated and is not accidental, but rather a compelling emergent feature of quantum theory that otherwise-in the absence of decoherence and amplification-leads to "quantum weirdness." In particular, a lack of consensus between agents that access environment fragments is bounded by the information deficit, a measure of the incompleteness of the information about the system.

Topics & Concepts

Quantum decoherenceQuantumComputer scienceObservableQuantum informationMutual informationTheoretical computer scienceStatistical physicsBounded functionsortQuantum systemPhysicsTheoretical physicsQuantum mechanicsMathematicsArtificial intelligenceInformation retrievalMathematical analysisQuantum Mechanics and ApplicationsQuantum Information and CryptographyQuantum Computing Algorithms and Architecture
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