Publikation: Memory-induced transition from a persistent random walk to circular motion for achiral microswimmers
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2018
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European Union (EU): 693683
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Suspensions with Controlled Interaction Rules ASCIR
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Physical Review Letters. 2018, 121(7), 078003. ISSN 0031-9007. eISSN 1079-7114. Available under: doi: 10.1103/PhysRevLett.121.078003
Zusammenfassung
We experimentally study the motion of light-activated colloidal microswimmers in a viscoelastic fluid. We find that, in such a non-Newtonian environment, the active colloids undergo an unexpected transition from enhanced angular diffusion to persistent rotational motion above a critical propulsion speed, despite their spherical shape and stiffness. We observe that, in contrast to chiral asymmetric microswimmers, the resulting circular orbits can spontaneously reverse their sense of rotation and exhibit an angular velocity and a radius of curvature that non-linearly depend on the propulsion speed. By means of a minimal non-Markovian Langevin model for active Brownian motion, we show that these non-equilibrium effects emerge from the delayed response of the fluid with respect to the self-propulsion of the particle without counterpart in Newtonian fluids.
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530 Physik
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NARINDER, Narinder, Clemens BECHINGER, Juan Ruben GOMEZ SOLANO, 2018. Memory-induced transition from a persistent random walk to circular motion for achiral microswimmers. In: Physical Review Letters. 2018, 121(7), 078003. ISSN 0031-9007. eISSN 1079-7114. Available under: doi: 10.1103/PhysRevLett.121.078003BibTex
@article{Narinder2018-07-21T03:48:52ZMemor-43251,
year={2018},
doi={10.1103/PhysRevLett.121.078003},
title={Memory-induced transition from a persistent random walk to circular motion for achiral microswimmers},
number={7},
volume={121},
issn={0031-9007},
journal={Physical Review Letters},
author={Narinder, Narinder and Bechinger, Clemens and Gomez Solano, Juan Ruben},
note={5 pages, 3 Figures, Phys. Rev. Lett. (accepted 20 July 2018) Article Number: 078003}
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<dcterms:abstract xml:lang="eng">We experimentally study the motion of light-activated colloidal microswimmers in a viscoelastic fluid. We find that, in such a non-Newtonian environment, the active colloids undergo an unexpected transition from enhanced angular diffusion to persistent rotational motion above a critical propulsion speed, despite their spherical shape and stiffness. We observe that, in contrast to chiral asymmetric microswimmers, the resulting circular orbits can spontaneously reverse their sense of rotation and exhibit an angular velocity and a radius of curvature that non-linearly depend on the propulsion speed. By means of a minimal non-Markovian Langevin model for active Brownian motion, we show that these non-equilibrium effects emerge from the delayed response of the fluid with respect to the self-propulsion of the particle without counterpart in Newtonian fluids.</dcterms:abstract>
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5 pages, 3 Figures, Phys. Rev. Lett. (accepted 20 July 2018)
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