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Thermodynamics of continuous non-Markovian feedback control

Maxime Debiossac, David Grass, Jose Joaquin Alonso, Eric Lutz, Nikolai Kiesel

2020Nature Communications57 citationsDOIOpen Access PDF

Abstract

Feedback control mechanisms are ubiquitous in science and technology, and play an essential role in regulating physical, biological and engineering systems. The standard second law of thermodynamics does not hold in the presence of measurement and feedback. Most studies so far have extended the second law for discrete, Markovian feedback protocols; however, non-Markovian feedback is omnipresent in processes where the control signal is applied with a non-negligible delay. Here, we experimentally investigate the thermodynamics of continuous, time-delayed feedback control using the motion of an optically levitated, underdamped microparticle. We test the validity of a generalized second law which bounds the energy extracted from the system, and study the breakdown of feedback cooling for very large time delays.

Topics & Concepts

Feedback controlSecond law of thermodynamicsControl theory (sociology)Control (management)Computer scienceEnergy (signal processing)Statistical physicsControl signalWork (physics)Feedback loopLaws of thermodynamicsPhysicsSIGNAL (programming language)Feedback regulationOutput feedbackNon-equilibrium thermodynamicsNegative feedbackFeedback controllerPositive feedbackDissipationMarkov processControl systemThermodynamicsProcess controlMotion (physics)Fluctuation theoremTemperature controlVisual feedbackProcess (computing)MathematicsMechanical and Optical Resonatorsstochastic dynamics and bifurcationAdvanced Thermodynamics and Statistical Mechanics