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Quantum scrambling and the growth of mutual information

Akram Touil, Sebastian Deffner

2020Quantum Science and Technology37 citationsDOIOpen Access PDF

Abstract

Abstract Quantum information scrambling refers to the loss of local recoverability of quantum information, which has found widespread attention from high energy physics to quantum computing. In the present analysis we propose a possible starting point for the development of a comprehensive framework for the thermodynamics of scrambling. To this end, we prove that the growth of entanglement as quantified by the mutual information is lower bounded by the time-dependent change of out-of-time-ordered correlator. We further show that the rate of increase of the mutual information can be upper bounded by the sum of local entropy productions, and the exchange entropy arising from the flow of information between separate partitions of a quantum system. Our results are illustrated for the ion trap system, that was recently used to verify information scrambling in an experiment, and for the Sachdev–Ye–Kitaev model.

Topics & Concepts

Quantum mutual informationScramblingMutual informationQuantum entanglementEntropy (arrow of time)Bounded functionQuantum informationQuantum discordMathematicsQuantumStatistical physicsCoherent informationKullback–Leibler divergenceJoint quantum entropyConditional mutual informationInformation theoryQuantum channelConditional entropyVon Neumann entropyQuantum capacityQuantum relative entropyAmplitude damping channelInformation flowQuantum mechanicsPoint (geometry)Computer scienceEnergy (signal processing)Generalized relative entropyTransfer entropyQuantum information sciencePhysicsUpper and lower boundsQuantum many-body systemsQuantum Information and CryptographyAdvanced Thermodynamics and Statistical Mechanics
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