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Escape dynamics of active particles in multistable potentials

A. Militaru, M. Innerbichler, M. Frimmer, F. Tebbenjohanns, L. Novotny and C. Dellago ()
Additional contact information
A. Militaru: ETH Zurich
M. Innerbichler: University of Vienna
M. Frimmer: ETH Zurich
F. Tebbenjohanns: ETH Zurich
L. Novotny: ETH Zurich
C. Dellago: University of Vienna

Nature Communications, 2021, vol. 12, issue 1, 1-6

Abstract: Abstract Rare transitions between long-lived metastable states underlie a great variety of physical, chemical and biological processes. Our quantitative understanding of reactive mechanisms has been driven forward by the insights of transition state theory and in particular by Kramers’ dynamical framework. Its predictions, however, do not apply to systems that feature non-conservative forces or correlated noise histories. An important class of such systems are active particles, prominent in both biology and nanotechnology. Here, we study the active escape dynamics of a silica nanoparticle trapped in a bistable potential. We introduce activity by applying an engineered stochastic force that emulates self-propulsion. Our experiments, supported by a theoretical analysis, reveal the existence of an optimal correlation time that maximises the transition rate. We discuss the origins of this active turnover, reminiscent of the much celebrated Kramers turnover. Our work establishes a versatile experimental platform to study single particle dynamics in non-equilibrium settings.

Date: 2021
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Citations: View citations in EconPapers (1)

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DOI: 10.1038/s41467-021-22647-6

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