Add to ORKGSingle cells exhibit a diverse array of swimming strategies at low Reynolds number to search for nutrients, light, and other organisms. The fluid flows generated by their locomotion are important to understanding biomixing and interactions between cells in suspension..
Zooplankton swimming near the substratum experience boundary layer flow that is characterized by ste...
Biflagellated algae swim in mean directions that are governed by their environments. For example, ma...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
Single cells exhibit a diverse array of swimming strategies at low Reynolds number to search for nut...
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...
The self-propulsion of unicellular algae in still ambient fluid is studied using a previously report...
This article showcases a video contribution to the Physics of Fluids Gallery of Fluid Motion (the vi...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
MasterMicrobial cells are easily found in geometrically confined environments. The swimming characte...
Algae cells can be considered as microrobots from the perspective of engineering. These organisms no...
Cell motility in viscous fluids is ubiquitous and affects many biological processes, including repro...
The propulsion of microscopic organisms and their mechanisms of detecting and responding to the envi...
University of Minnesota Ph.D. dissertation. October 2013. Major:Civil Engineering. Advisor:Miki Hond...
The Reynolds number is a useful dimensionless term which compares the ratio between inertial forces ...
Zooplankton swimming near the substratum experience boundary layer flow that is characterized by ste...
Biflagellated algae swim in mean directions that are governed by their environments. For example, ma...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...
Single cells exhibit a diverse array of swimming strategies at low Reynolds number to search for nut...
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...
The self-propulsion of unicellular algae in still ambient fluid is studied using a previously report...
This article showcases a video contribution to the Physics of Fluids Gallery of Fluid Motion (the vi...
In this fluid dynamics video, we demonstrate the microscale mixing enhancement of passive tracer par...
MasterMicrobial cells are easily found in geometrically confined environments. The swimming characte...
Algae cells can be considered as microrobots from the perspective of engineering. These organisms no...
Cell motility in viscous fluids is ubiquitous and affects many biological processes, including repro...
The propulsion of microscopic organisms and their mechanisms of detecting and responding to the envi...
University of Minnesota Ph.D. dissertation. October 2013. Major:Civil Engineering. Advisor:Miki Hond...
The Reynolds number is a useful dimensionless term which compares the ratio between inertial forces ...
Zooplankton swimming near the substratum experience boundary layer flow that is characterized by ste...
Biflagellated algae swim in mean directions that are governed by their environments. For example, ma...
Flagellar locomotion is one of the first forms of locomotion on our planet. Microorganisms use their...