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Quantum Heat Statistics with Time-Evolving Matrix Product Operators

Maria Popovic, Mark T. Mitchison, Aidan Strathearn, Brendon W. Lovett, John Goold, Paul R. Eastham

2021PRX Quantum51 citationsDOIOpen Access PDF

Abstract

We present a numerically exact method to compute the full counting statistics of heat transfer in non-Markovian open quantum systems, which is based on the time-evolving matrix product operator algorithm. This approach is applied to the paradigmatic spin-boson model in order to calculate the mean and fluctuations of the heat transferred to the environment during thermal equilibration. We show that system-reservoir correlations make a significant contribution to the heat statistics at low temperature and present a variational theory that quantitatively explains our numerical results. We also demonstrate a fluctuation-dissipation relation connecting the mean and variance of the heat distribution at high temperature. Our results reveal that system-bath interactions make a significant contribution to heat transfer even when the dynamics of the open system is effectively Markovian. The method presented here provides a flexible and general tool to predict the fluctuations of heat transfer in open quantum systems in nonperturbative regimes.

Topics & Concepts

Heat transferStatistical physicsQuantumProduct (mathematics)Operator (biology)Transfer operatorQuantum statistical mechanicsMathematicsHeat currentRandom matrixMatrix (chemical analysis)ThermalPhysicsTransfer matrixDistribution (mathematics)StatisticsQuantum systemMatrix multiplicationProbability distributionSpecific heatVariance (accounting)Order (exchange)Quantum mechanicsDensity matrixTransfer (computing)Thermal reservoirHeat transfer coefficientApplied mathematicsThermal fluctuationsHeat equationOpen system (computing)Thermal contactTransfer-matrix method (optics)Simple (philosophy)Perturbation theory (quantum mechanics)Quantum many-body systemsAdvanced Thermodynamics and Statistical MechanicsQuantum Information and Cryptography
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