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Article Dans Une Revue Nature Physics Année : 2017

Light-controlled flows in active fluids

Résumé

Many photosynthetic microorganisms are able to detect light and move toward optimal intensities. This ability, known as phototaxis, plays a major role in ecology by affecting natural phytoplankton mass transfers and has important applications in bioreactor and artificial microswimmers technologies. Here we show that this property can be exploited to generate macroscopic fluid flows using a localized light source directed toward shallow suspensions of phototactic microorganisms. Within the intensity range of positive phototaxis, algae accumulate beneath the excitation light where collective effects lead to the emergence of radially symmetric convective flows. These flows can thus be used as hydrodynamic tweezers to manipulate small floating objects. At high cell density and layer depth, we uncover a new kind of instability wherein the viscous torque exerted by self-generated fluid flows on the swimmers induces the formation of traveling waves. A model coupling fluid flow, cell concentration and orientation finely reproduces the experimental data.
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Dates et versions

hal-02326433 , version 1 (22-10-2019)

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Julien Dervaux, Marina Capellazzi Resta, Philippe Brunet. Light-controlled flows in active fluids. Nature Physics, 2017, 13 (3), pp.306-312. ⟨10.1038/nphys3926⟩. ⟨hal-02326433⟩
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