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Extracting work from random collisions: A model of a quantum heat engine

Vahid Shaghaghi, G. Massimo Palma, Giuliano Benenti

2022Physical review. E21 citationsDOIOpen Access PDF

Abstract

We study the statistical distribution of the ergotropy and of the efficiency of a single-qubit battery ad of a single-qubit Otto engine, respectively fueled by random collisions. The single qubit, our working fluid, is assumed to exchange energy with two reservoirs: a nonequilibrium "hot" reservoir and a zero-temperature cold reservoir. The interactions between the qubit and the reservoirs are described in terms of a collision model of open system dynamics. The qubit interacts with the nonequilibrium reservoir (a large ensemble of qudits all prepared in the same pure state) via random unitary collisions and with the cold reservoir (a large ensemble of qubits in their ground state) via a partial swap. Due to the random nature of the interaction with the hot reservoir, fluctuations in ergotropy, heat, and work are present, shrinking with the size of the qudits in the hot reservoir. While the mean, "macroscopic" efficiency of the Otto engine is the same as in the case in which the hot reservoir is a thermal one, the distribution of efficiencies does not support finite moments, so that the mean of efficiencies does not coincide with the macroscopic efficiency.

Topics & Concepts

QubitHeat engineWork (physics)Statistical physicsPhysicsNon-equilibrium thermodynamicsUnitary stateStatistical ensembleQuantumThermal reservoirDistribution (mathematics)ThermalCanonical ensembleQuantum thermodynamicsGround stateCollisionEnergy (signal processing)Hot spot (computer programming)Probability distributionTopology (electrical circuits)Fluctuation theoremQuantum mechanicsEnsemble averageMathematicsMode (computer interface)Quantum statistical mechanicsPhase qubitFlux qubitReservoir computingHeat exchangerMicrocanonical ensembleQuantum systemAdvanced Thermodynamics and Statistical Mechanicsstochastic dynamics and bifurcationOptical properties and cooling technologies in crystalline materials
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