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Nonequilibrium Quantum Many-Body Rydberg Atom Engine

Federico Carollo, Filippo Maria Gambetta, Kay Brandner, Juan P. Garrahan, Igor Lesanovsky

2020Physical Review Letters53 citationsDOIOpen Access PDF

Abstract

The standard approach to quantum engines is based on equilibrium systems and on thermodynamic transformations between Gibbs states. However, nonequilibrium quantum systems offer enhanced experimental flexibility in the control of their parameters and, if used as engines, a more direct interpretation of the type of work they deliver. Here we introduce an out-of-equilibrium quantum engine inspired by recent experiments with cold atoms. Our system is connected to a single environment and produces mechanical work from many-body interparticle interactions arising between atoms in highly excited Rydberg states. As such, it is not a heat engine but an isothermal one. We perform many-body simulations to show that this system can produce work. The setup we introduce and investigate represents a promising platform for devising new types of microscopic machines and for exploring quantum effects in thermodynamic processes.

Topics & Concepts

Non-equilibrium thermodynamicsQuantumRydberg atomPhysicsRydberg formulaWork (physics)Quantum thermodynamicsQuantum systemWork outputQuantum simulatorOpen quantum systemStatistical physicsQuantum mechanicsIonIonizationAdvanced Thermodynamics and Statistical MechanicsQuantum many-body systemsQuantum Information and Cryptography
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