Experimental Test of the Differential Fluctuation Theorem and a Generalized Jarzynski Equality for Arbitrary Initial States

Experimental Test of the Differential Fluctuation Theorem and a Generalized Jarzynski Equality for Arbitrary Initial States

Nonequilibrium processes of small systems such as molecular machines are ubiquitous in biology, chemistry, and physics but are often challenging to comprehend. In the past two decades, several exact thermodynamic relations of nonequilibrium processes, collectively known as fluctuation theorems, have...

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Bibliographic Details
Published in:Physical review letters Vol. 120; no. 8; p. 080602
Main Authors: Hoang, Thai M, Pan, Rui, Ahn, Jonghoon, Bang, Jaehoon, Quan, H T, Li, Tongcang
Format: Journal Article
Language:English
Published: United States American Physical Society 23-02-2018
American Physical Society (APS)
Subjects:
Molecular machines
Nanospheres
Organic chemistry
Theorems
Variation
Velocity measurement
Online Access:Get full text
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Summary:Nonequilibrium processes of small systems such as molecular machines are ubiquitous in biology, chemistry, and physics but are often challenging to comprehend. In the past two decades, several exact thermodynamic relations of nonequilibrium processes, collectively known as fluctuation theorems, have been discovered and provided critical insights. These fluctuation theorems are generalizations of the second law and can be unified by a differential fluctuation theorem. Here we perform the first experimental test of the differential fluctuation theorem using an optically levitated nanosphere in both underdamped and overdamped regimes and in both spatial and velocity spaces. We also test several theorems that can be obtained from it directly, including a generalized Jarzynski equality that is valid for arbitrary initial states, and the Hummer-Szabo relation. Our study experimentally verifies these fundamental theorems and initiates the experimental study of stochastic energetics with the instantaneous velocity measurement.
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SAND2017-3942J
AC04-94AL85000
USDOE National Nuclear Security Administration (NNSA)
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.120.080602