Govind Paneru scite author profile

We report on a lossless information engine that converts nearly all available information from an error-free feedback protocol into mechanical work. Combining high-precision detection at a resolution of 1 nm with ultrafast feedback control, the engine is tuned to extract the maximum work from information on the position of a Brownian particle. We show that the work produced by the engine achieves a bound set by a generalized second law of thermodynamics, demonstrating for the first time the sharpness of this bound. We validate a generalized Jarzynski equality for error-free feedback-controlled information engines.

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Efficiency fluctuations and noise induced refrigerator-to-heater transition in information engines

Paneru

Dutta

Sagawa

et al. 2020

Nat Commun

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Understanding noisy information engines is a fundamental problem of non-equilibrium physics, particularly in biomolecular systems agitated by thermal and active fluctuations in the cell. By the generalized second law of thermodynamics, the efficiency of these engines is bounded by the mutual information passing through their noisy feedback loop. Yet, direct measurement of the interplay between mutual information and energy has so far been elusive. To allow such examination, we explore here the entire phase-space of a noisy colloidal information engine, and study efficiency fluctuations due to the stochasticity of the mutual information and extracted work. We find that the average efficiency is maximum for non-zero noise level, at which the distribution of efficiency switches from bimodal to unimodal, and the stochastic efficiency often exceeds unity. We identify a line of anomalous, noise-driven equilibrium states that defines a refrigerator-to-heater transition, and test the generalized integral fluctuation theorem for continuous engines.

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Optimal tuning of a Brownian information engine operating in a nonequilibrium steady state

et al. 2018

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Rapid-prototyping a Brownian particle in an active bath

et al. 2020

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Govind Paneru

Line tension and its influence on droplets and particles at surfaces

Lossless Brownian Information Engine

Efficiency fluctuations and noise induced refrigerator-to-heater transition in information engines

Optimal tuning of a Brownian information engine operating in a nonequilibrium steady state

Rapid-prototyping a Brownian particle in an active bath

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