Add to ORKGIn contexts such as suspension feeding in marine ecologies there is an interplay between Brownian motion of nonmotile particles and their advection by flows from swimming microorganisms. As a laboratory realization, we study passive tracers in suspensions of eukaryotic swimmers, the alga Chlamydomonas reinhardtii. While the cells behave ballistically over short intervals, the tracers behave diffusively, with a time-dependent but self-similar probability distribution function of displacements consisting of a Gaussian core and robust exponential tails. We emphasize the role of flagellar beating in creating oscillatory flows that exceed Brownian motion far from each swimmer
Microorganisms form an essential part of our biosphere and represent roughly 14 percent of the biom...
Suspensions of microswimmers are a rich source of fascinating new fluid mechanics. Recently we predi...
peer reviewedWe present a statistical analysis of the experimental trajectories of colloids in a dil...
In contexts such as suspension feeding in marine ecologies there is an interplay between Brownian mo...
Swimming micro-organisms rely on effective mixing strategies to achieve efficient nutrient influx. R...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
Artículo de publicación ISIWe consider two systems of active swimmers moving close to a solid surfac...
In addition to enabling movement towards environments with favourable living conditions, swim- ming ...
[eng] The incessant activity of swimming microorganisms has a direct physical effect on surrounding ...
International audienceSwimming at a micrometer scale demands particular strategies. Indeed when iner...
Active suspensions of microswimmers such as bacteria or microalgae are found in oceans or lakes, and...
International audienceIn addition to enabling movement towards environments with favourable living c...
Classical Taylor-Aris dispersion theory is extended to describe the transport of suspensions of self...
7 pages, 3 figuresBrownian motion is widely used as a model of diffusion in equilibrium media throug...
Classical Taylor-Aris dispersion theory is extended to describe the transport of suspensions of self...
Microorganisms form an essential part of our biosphere and represent roughly 14 percent of the biom...
Suspensions of microswimmers are a rich source of fascinating new fluid mechanics. Recently we predi...
peer reviewedWe present a statistical analysis of the experimental trajectories of colloids in a dil...
In contexts such as suspension feeding in marine ecologies there is an interplay between Brownian mo...
Swimming micro-organisms rely on effective mixing strategies to achieve efficient nutrient influx. R...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
Artículo de publicación ISIWe consider two systems of active swimmers moving close to a solid surfac...
In addition to enabling movement towards environments with favourable living conditions, swim- ming ...
[eng] The incessant activity of swimming microorganisms has a direct physical effect on surrounding ...
International audienceSwimming at a micrometer scale demands particular strategies. Indeed when iner...
Active suspensions of microswimmers such as bacteria or microalgae are found in oceans or lakes, and...
International audienceIn addition to enabling movement towards environments with favourable living c...
Classical Taylor-Aris dispersion theory is extended to describe the transport of suspensions of self...
7 pages, 3 figuresBrownian motion is widely used as a model of diffusion in equilibrium media throug...
Classical Taylor-Aris dispersion theory is extended to describe the transport of suspensions of self...
Microorganisms form an essential part of our biosphere and represent roughly 14 percent of the biom...
Suspensions of microswimmers are a rich source of fascinating new fluid mechanics. Recently we predi...
peer reviewedWe present a statistical analysis of the experimental trajectories of colloids in a dil...