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Open-system approach to nonequilibrium quantum thermodynamics at arbitrary coupling

Alessandra Colla, Heinz‐Peter Breuer

2022Physical review. A/Physical review, A46 citationsDOIOpen Access PDF

Abstract

We develop a general theory describing the thermodynamical behavior of open quantum systems coupled to thermal baths beyond perturbation theory. Our approach is based on the exact time-local quantum master equation for the reduced open-system states, and on a principle of minimal dissipation. This principle leads to a unique prescription for the decomposition of the master equation into a Hamiltonian part representing coherent time evolution and a dissipator part describing dissipation and decoherence. Employing this decomposition we demonstrate how to define work, heat, and entropy production, formulate the first and second laws of thermodynamics, and establish the connection between violations of the second law and quantum non-Markovianity.

Topics & Concepts

Quantum thermodynamicsMaster equationNon-equilibrium thermodynamicsQuantum decoherenceSecond law of thermodynamicsEntropy productionPhysicsQuantum master equationHamiltonian (control theory)Open quantum systemQuantum dissipationQuantumThermal reservoirDissipationStatistical physicsExtended irreversible thermodynamicsEntropy (arrow of time)Classical mechanicsQuantum mechanicsMathematicsHeat transferMathematical optimizationHeat spreaderAdvanced Thermodynamics and Statistical MechanicsQuantum Information and CryptographySpectroscopy and Quantum Chemical Studies
Open-system approach to nonequilibrium quantum thermodynamics at arbitrary coupling | Litcius