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Literature DB >> 18850771

Dynamics of a Brownian circle swimmer.

Abstract

Self-propelled particles move along circles rather than along a straight line when their driving force does not coincide with their propagation direction. Examples include confined bacteria and spermatozoa, catalytically driven nanorods, active, anisotropic colloidal particles and vibrated granulates. Using a non-Hamiltonian rate theory and computer simulations, we study the motion of a Brownian "circle swimmer" in a confining channel. A sliding mode close to the wall leads to a huge acceleration as compared to the bulk motion, which can further be enhanced by an optimal effective torque-to-force ratio.

Year: 2008 PMID： 18850771 DOI： 10.1103/PhysRevE.78.020101

Source DB: PubMed Journal: Phys Rev E Stat Nonlin Soft Matter Phys ISSN： 1539-3755

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Cited

11 in total

1. Two-dimensional motion of Brownian swimmers in linear flows.

Authors: Mario Sandoval; Alonso Jimenez
Journal: J Biol Phys Date: 2015-10-01 Impact factor: 1.365

2. Unimodal and bimodal random motions of independent exponential steps.

Authors: F Detcheverry
Journal: Eur Phys J E Soft Matter Date: 2014-11-24 Impact factor: 1.890

3. A circle swimmer at low Reynolds number.

Authors: R Ledesma-Aguilar; H Löwen; J M Yeomans
Journal: Eur Phys J E Soft Matter Date: 2012-08-08 Impact factor: 1.890

4. Mode instabilities and dynamic patterns in a colony of self-propelled surfactant particles covering a thin liquid layer.

Authors: Andrey Pototsky; Uwe Thiele; Holger Stark
Journal: Eur Phys J E Soft Matter Date: 2016-05-06 Impact factor: 1.890

5. Physical Sensing of Surface Properties by Microswimmers--Directing Bacterial Motion via Wall Slip.

Authors: Jinglei Hu; Adam Wysocki; Roland G Winkler; Gerhard Gompper
Journal: Sci Rep Date: 2015-05-20 Impact factor: 4.379

6. Fission and fusion scenarios for magnetic microswimmer clusters.

Authors: Francisca Guzmán-Lastra; Andreas Kaiser; Hartmut Löwen
Journal: Nat Commun Date: 2016-11-22 Impact factor: 14.919

7. Intermediate scattering function of an anisotropic active Brownian particle.

Authors: Christina Kurzthaler; Sebastian Leitmann; Thomas Franosch
Journal: Sci Rep Date: 2016-10-10 Impact factor: 4.379

8. Ideal circle microswimmers in crowded media.

Authors: Oleksandr Chepizhko; Thomas Franosch
Journal: Soft Matter Date: 2018-12-21 Impact factor: 4.046

9. Chemokinesis-driven accumulation of active colloids in low-mobility regions of fuel gradients.

Authors: Jeffrey L Moran; Philip M Wheat; Nathan A Marine; Jonathan D Posner
Journal: Sci Rep Date: 2021-02-26 Impact factor: 4.379

10. Rational design and dynamics of self-propelled colloidal bead chains: from rotators to flagella.

Authors: Hanumantha Rao Vutukuri; Bram Bet; René van Roij; Marjolein Dijkstra; Wilhelm T S Huck
Journal: Sci Rep Date: 2017-12-01 Impact factor: 4.379