01337nas a2200205 4500008004100000022001400041245006800055210006600123300000800189490000600197520075000203653000700953653000700960653000700967100002000974700002300994700002401017700002501041856006501066 2020 eng d a2296-424X00aEntropy Production in an Elementary, Light Driven Micro-Machine0 aEntropy Production in an Elementary Light Driven MicroMachine a5380 v83 a
We consider the basic, thermodynamic properties of an elementary micro-machine operating at colloidal length scales. In particular, we track and analyze the driven stochastic motion of a carefully designed micro-propeller rotating unevenly in an optical tweezers, in water. In this intermediate regime, the second law of macroscopic thermodynamics is satisfied only as an ensemble average, and individual trajectories can be temporarily associated with decreases in entropy. We show that our light driven micro-propeller satisfies an appropriate fluctuation theorem that constrains the probability with which these apparent violations of the second law occur. Implications for the development of more complex micro-machines are discussed.
10aKF10aLF10aMF1 aBox, Stuart, J.1 aAllen, Michael, P.1 aPhillips, David, B.1 aSimpson, Stephen, H. uhttps://www.frontiersin.org/article/10.3389/fphy.2020.593122