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Entropy production in continuously measured Gaussian quantum systems

Alessio Belenchia, Luca Mancino, Gabriel T. Landi, Mauro Paternostro

2020npj Quantum Information35 citationsDOIOpen Access PDF

Abstract

Abstract The entropy production rate is a key quantity in nonequilibrium thermodynamics of both classical and quantum processes. No universal theory of entropy production is available to date, which hinders progress toward its full grasping. By using a phase space-based approach, here we take the current framework for the assessment of thermodynamic irreversibility all the way to quantum regimes by characterizing entropy production—and its rate—resulting from the continuous monitoring of a Gaussian system. This allows us to formulate a sharpened second law of thermodynamics that accounts for the measurement back action and information gain from a continuously monitored system. We illustrate our framework in a series of physically relevant examples.

Topics & Concepts

Entropy productionNon-equilibrium thermodynamicsStatistical physicsJoint quantum entropyEntropy (arrow of time)Second law of thermodynamicsQuantum relative entropyQuantumGeneralized relative entropyGaussianEntropy ratePhysicsQuantum thermodynamicsEntropy in thermodynamics and information theoryMaximum entropy thermodynamicsH-theoremMathematicsInformation theoryThermodynamicsConfiguration entropyProduction (economics)Laws of thermodynamicsQuantum informationQuantum discordQuantum mechanicsRényi entropyAction (physics)Quantum systemFluctuation theoremAdvanced Thermodynamics and Statistical MechanicsQuantum many-body systemsControl and Stability of Dynamical Systems
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