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Hybrid thermal machines: Generalized thermodynamic resources for multitasking

Gonzalo Manzano, Rafael Sánchez, Ralph Silva, Géraldine Haack, Jonatan B. Brask, Nicolas Brunner, Patrick P. Potts

2020Physical Review Research48 citationsDOIOpen Access PDF

Abstract

Thermal machines perform useful tasks, such as producing work, cooling, or heating by exchanging energy, and possibly additional conserved quantities such as particles, with reservoirs. Here we consider thermal machines that perform more than one useful task simultaneously, terming these hybrid thermal machines. We outline their restrictions imposed by the laws of thermodynamics and we quantify their performance in terms of efficiencies. To illustrate their full potential, reservoirs that feature multiple conserved quantities, described by generalized Gibbs ensembles, are considered. A minimal model for a hybrid thermal machine is introduced, featuring three reservoirs and two conserved quantities, e.g., energy and particle number. This model can be readily implemented in a thermoelectric setup based on quantum dots, and hybrid regimes are accessible considering realistic parameters.

Topics & Concepts

ThermalTask (project management)Human multitaskingComputer scienceConserved quantityQuantum thermodynamicsEnergy (signal processing)Hybrid systemConservation of energyThermal energyThermal equilibriumQuantumThermoelectric coolingFeature (linguistics)Energy conservationStatistical physicsLaws of thermodynamicsParticle (ecology)Thermal physicsGibbs free energyEnergy consumptionTopology (electrical circuits)Hybrid computerNon-equilibrium thermodynamicsAdvanced Thermodynamics and Statistical MechanicsQuantum many-body systemsThermal properties of materials
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