Thermodynamic cost of a shortcuts-to-isothermal transport of a Brownian particle

John A.C. Albay; Sarah R. Wulaningrum; Chulan Kwon; Pik Yin Lai; Yonggun Jun

doi:10.1103/PhysRevResearch.1.033122

Thermodynamic cost of a shortcuts-to-isothermal transport of a Brownian particle

John A.C. Albay
, Sarah R. Wulaningrum
, Chulan Kwon
, Pik Yin Lai
, Yonggun Jun

Department of Physics

Research output: Contribution to journal › Article › peer-review

31 Scopus citations

Abstract

We study the thermodynamic energy cost required for the shortcuts-to-isothermal (ScI) process that can accelerate the isothermal process at a finite time. Our experiment uses a Brownian particle dragged by the harmonic potential between two equilibrium positions with free energy difference. We confirm theoretically and experimentally that the probability distribution functions of work done during these processes are Gaussian, and the dissipated work for ScI transport is inversely proportional to the driving time, indicating that very prompt transition is impossible because of a diverging driving cost.

Original language	English
Article number	033122
Journal	Physical Review Research
Volume	1
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevResearch.1.033122
State	Published - Nov 2019

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abstract = "We study the thermodynamic energy cost required for the shortcuts-to-isothermal (ScI) process that can accelerate the isothermal process at a finite time. Our experiment uses a Brownian particle dragged by the harmonic potential between two equilibrium positions with free energy difference. We confirm theoretically and experimentally that the probability distribution functions of work done during these processes are Gaussian, and the dissipated work for ScI transport is inversely proportional to the driving time, indicating that very prompt transition is impossible because of a diverging driving cost.",

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AU - Albay, John A.C.

AU - Wulaningrum, Sarah R.

AU - Kwon, Chulan

AU - Lai, Pik Yin

AU - Jun, Yonggun

PY - 2019/11

Y1 - 2019/11

N2 - We study the thermodynamic energy cost required for the shortcuts-to-isothermal (ScI) process that can accelerate the isothermal process at a finite time. Our experiment uses a Brownian particle dragged by the harmonic potential between two equilibrium positions with free energy difference. We confirm theoretically and experimentally that the probability distribution functions of work done during these processes are Gaussian, and the dissipated work for ScI transport is inversely proportional to the driving time, indicating that very prompt transition is impossible because of a diverging driving cost.

AB - We study the thermodynamic energy cost required for the shortcuts-to-isothermal (ScI) process that can accelerate the isothermal process at a finite time. Our experiment uses a Brownian particle dragged by the harmonic potential between two equilibrium positions with free energy difference. We confirm theoretically and experimentally that the probability distribution functions of work done during these processes are Gaussian, and the dissipated work for ScI transport is inversely proportional to the driving time, indicating that very prompt transition is impossible because of a diverging driving cost.

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Thermodynamic cost of a shortcuts-to-isothermal transport of a Brownian particle

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