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Optimal protocols and universal time-energy bound in Brownian thermodynamics

We propose an optimization strategy to control the dynamics of a stochastic system transferred from one thermal equilibrium to another and apply it experimentally to a Brownian particle in an optical trap under compression. Based on a variational principle that treats the transfer duration and the expended work on an equal footing, our strategy leads to a family of protocols that are either optimally cheap for a given duration or optimally fast for a given energetic cost. This approach unveils a universal relation $Δt\,ΔW \ge (Δt\,ΔW)_{\rm opt}$ between the transfer duration and the expended work. We verify experimentally that the lower bound is reached only with the optimized protocols.

preprint2019arXivOpen access
Yoseline Rosales-CabaraGiovanni ManfrediGabriel SchnoeringPaul-Antoine HervieuxLaurent MertzCyriaque Genet
cond-mat.stat-mech
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Yoseline Rosales-CabaraGiovanni ManfrediGabriel SchnoeringPaul-Antoine HervieuxLaurent MertzCyriaque Genet

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