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Quasiprobability Distribution for Heat Fluctuations in the Quantum Regime

Amikam Levy, Matteo Lostaglio

2020PRX Quantum78 citationsDOIOpen Access PDF

Abstract

The standard approach to deriving fluctuation theorems fails to capture the effect of quantum correlation and coherence in the initial state of the system. Here, we overcome this difficulty and derive the heat-exchange-fluctuation theorem in the full quantum regime by showing that the energy exchange between two locally thermal states in the presence of initial quantum correlations is faithfully captured by a quasiprobability distribution. Its negativities, being associated with proofs of contextuality, are proxies of nonclassicality. We discuss the thermodynamic interpretation of negative probabilities and provide heat-flow inequalities that can only be violated in their presence. Remarkably, testing these fully quantum inequalities, at an arbitrary dimension, is no more difficult than testing traditional fluctuation theorems. We test these results on data collected in a recent experiment studying the heat transfer between two qubits and give examples for the capability of witnessing negative probabilities at higher dimensions.

Topics & Concepts

Statistical physicsCoherence (philosophical gambling strategy)QuantumPhysicsInterpretation (philosophy)Quantum mechanicsQuantum discordMathematicsQubitState (computer science)Quantum stateMathematical proofQuantum fluctuationDistribution (mathematics)Quantum systemQuantum processQuantum operationThermalProbability distributionEnergy (signal processing)Open quantum systemQuantum correlationTheoretical physicsDetailed balanceThermal stateMultipartiteTransfer (computing)Quantum field theoryEnergy transferQuantum statistical mechanicsQuantum informationQuantum dissipationAdvanced Thermodynamics and Statistical MechanicsQuantum many-body systemsThermal properties of materials
Quasiprobability Distribution for Heat Fluctuations in the Quantum Regime | Litcius