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Experimental Assessment of Entropy Production in a Continuously Measured Mechanical Resonator

Massimiliano Rossi, Luca Mancino, Gabriel T. Landi, Mauro Paternostro, Albert Schließer, Alessio Belenchia

2020Physical Review Letters39 citationsDOIOpen Access PDF

Abstract

The information on a quantum process acquired through measurements plays a crucial role in the determination of its nonequilibrium thermodynamic properties. We report on the experimental inference of the stochastic entropy production rate for a continuously monitored mesoscopic quantum system. We consider an optomechanical system subjected to continuous displacement Gaussian measurements and characterize the entropy production rate of the individual trajectories followed by the system in its stochastic dynamics, employing a phase-space description in terms of the Wigner entropy. Owing to the specific regime of our experiment, we are able to single out the informational contribution to the entropy production arising from conditioning the state on the measurement outcomes. Our experiment embodies a significant step towards the demonstration of full-scale control of fundamental thermodynamic processes at the mesoscopic quantum scale.

Topics & Concepts

Mesoscopic physicsEntropy productionNon-equilibrium thermodynamicsStatistical physicsPhysicsQuantumEntropy (arrow of time)ThermodynamicsQuantum mechanicsAdvanced Thermodynamics and Statistical MechanicsMechanical and Optical ResonatorsQuantum Information and Cryptography