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W3100302141 abstract "Modern technologies could soon make it possible to investigate the operation cycles of quantum heat engines by counting the photons that are emitted and absorbed by their working systems. Using the quantum jump approach to open-system dynamics, we show that such experiments would give access to a set of observables that determine the trade-off between power and efficiency in finite-time engine cycles. By analyzing the single-jump statistics of thermodynamic fluxes such as heat and entropy production, we obtain a family of general bounds on the power of microscopic heat engines. Our new bounds unify two earlier results and admit a transparent physical interpretation in terms of single-photon measurements. In addition, these bounds confirm that driving-induced coherence leads to an increase in dissipation that suppresses the efficiency of slowly driven quantum engines in the weak-coupling regime. A nanoscale heat engine based on a superconducting qubit serves as an experimentally relevant example and a guiding paradigm for the development of our theory." @default.
W3100302141 created "2020-11-23" @default.
W3100302141 creator A5000970572 @default.
W3100302141 creator A5012814263 @default.
W3100302141 creator A5015879999 @default.
W3100302141 date "2020-09-21" @default.
W3100302141 modified "2023-10-12" @default.
W3100302141 title "Quantum jump approach to microscopic heat engines" @default.
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W3100302141 doi "https://doi.org/10.1103/physrevresearch.2.033449" @default.
W3100302141 hasPublicationYear "2020" @default.
W3100302141 type Work @default.