Add to ORKGWe present the first time-resolved measurements of the oscillatory velocity field induced by swimming unicellular microorganisms. Confinement of the green alga C. reinhardtii in stabilized thin liquid films allows simultaneous tracking of cells and tracer particles. The measured velocity field reveals complex time-dependent flow structures, and scales inversely with distance. The instantaneous mechanical power generated by the cells is measured from the velocity fields and peaks at 15 fW. The dissipation per cycle is more than 4 times what steady swimming would require. A pdf of this published paper has been uploaded elsewhere on this page. Guasto was a post-doctoral student of Jerry Gollub\u27s. --author supplied descriptio
How microorganisms interact with their environment and with their conspecifics depends strongly on t...
Swimming microorganisms create flows that influence their mutual interactions and modify the rheolog...
The world of cellular biology provides us with many fascinating fluid dynamical phenomena that lie a...
We present the first time-resolved measurements of the oscillatory velocity field induced by swimmin...
We present the first time-resolved measurements of the oscillatory velocity field induced by swimmin...
Single cells exhibit a diverse array of swimming strategies at low Reynolds number to search for nut...
This article showcases a video contribution to the Physics of Fluids Gallery of Fluid Motion (the vi...
We present quantitative measurements of time-dependent flagellar waveforms for freely swimming bifla...
The motility of microorganisms is influenced greatly by their hydrodynamic interactions with the flu...
What is flagellar swimming? Cilia and flagella are whip-like cell appendages that can exhibit regula...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
The Reynolds number is a useful dimensionless term which compares the ratio between inertial forces ...
From the bacteria living on a keyboard to algae surviving in snow, microorganisms can be found virtu...
AbstractIt has been theoretically suggested that when a bacterium swims in a fluid, the disturbance ...
How microorganisms interact with their environment and with their conspecifics depends strongly on t...
Swimming microorganisms create flows that influence their mutual interactions and modify the rheolog...
The world of cellular biology provides us with many fascinating fluid dynamical phenomena that lie a...
We present the first time-resolved measurements of the oscillatory velocity field induced by swimmin...
We present the first time-resolved measurements of the oscillatory velocity field induced by swimmin...
Single cells exhibit a diverse array of swimming strategies at low Reynolds number to search for nut...
This article showcases a video contribution to the Physics of Fluids Gallery of Fluid Motion (the vi...
We present quantitative measurements of time-dependent flagellar waveforms for freely swimming bifla...
The motility of microorganisms is influenced greatly by their hydrodynamic interactions with the flu...
What is flagellar swimming? Cilia and flagella are whip-like cell appendages that can exhibit regula...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
The Reynolds number is a useful dimensionless term which compares the ratio between inertial forces ...
From the bacteria living on a keyboard to algae surviving in snow, microorganisms can be found virtu...
AbstractIt has been theoretically suggested that when a bacterium swims in a fluid, the disturbance ...
How microorganisms interact with their environment and with their conspecifics depends strongly on t...
Swimming microorganisms create flows that influence their mutual interactions and modify the rheolog...
The world of cellular biology provides us with many fascinating fluid dynamical phenomena that lie a...
