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Literature DB >> 11461283

Active and passive particles: modeling beads in a bacterial bath.

Abstract

A simple model for the motion of passive particles in a bath of active, self-propelled ones is introduced. It is argued that this approach provides the correct framework within which to cast the recent experimental results obtained by Wu and Libchaber [Phys Rev. Lett. 84, 3017 (2000)] for the diffusive properties of polystyrene beads displaced by bacteria suspended in a two-dimensional fluid film. Our results suggest that superdiffusive behavior should indeed be generically observed in the transition region marking the onset of collective motion.

Entities: Chemical

Mesh：

Substances：
Polystyrenes

Year: 2001 PMID： 11461283 DOI： 10.1103/PhysRevE.64.011902

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

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Cited

5 in total

1. Single particle tracking of correlated bacterial dynamics.

Authors: G V Soni; B M Jaffar Ali; Y Hatwalne; G V Shivashankar
Journal: Biophys J Date: 2003-04 Impact factor: 4.033

2. Collective bacterial dynamics revealed using a three-dimensional population-scale defocused particle tracking technique.

Authors: Mingming Wu; John W Roberts; Sue Kim; Donald L Koch; Matthew P DeLisa
Journal: Appl Environ Microbiol Date: 2006-07 Impact factor: 4.792

Active and passive particles: modeling beads in a bacterial bath.

1. Single particle tracking of correlated bacterial dynamics.

2. Collective bacterial dynamics revealed using a three-dimensional population-scale defocused particle tracking technique.

3. Collective behavior of Vicsek particles without and with obstacles^⋆.

4. Fluctuation-driven flocking movement in three dimensions and scale-free correlation.

5. Disorder-mediated crowd control in an active matter system.

Active and passive particles: modeling beads in a bacterial bath.

1. Single particle tracking of correlated bacterial dynamics.

2. Collective bacterial dynamics revealed using a three-dimensional population-scale defocused particle tracking technique.

3. Collective behavior of Vicsek particles without and with obstacles⋆.

4. Fluctuation-driven flocking movement in three dimensions and scale-free correlation.

5. Disorder-mediated crowd control in an active matter system.

3. Collective behavior of Vicsek particles without and with obstacles^⋆.