We study two microswimmers consisting of a spherical rigid head and a passive elastic tail. In the first one the tail is clamped to the head, and the system oscillates under the action of an external torque. In the second one, head and tail are connected by a joint allowing the angle between them to vary periodically, as a result of an oscillating internal torque. Previous studies on these models were restricted to sinusoidal actuations, showing that the swimmers can propel while moving on average along a straight line, in the direction given by the symmetry axis around which beating takes place. We extend these results to motions produced by generic (non-sinusoidal) periodic actuations within the regime of small compliance of the tail. We ...
With the continuing rapid development of artificial microrobots and active particles, questions of m...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
We study the dynamics of a prolate spheroidal microswimmer in Poiseuille flow for different flow geo...
We study two microswimmers consisting of a spherical rigid head and a passive elastic tail. In the f...
In this thesis, we explore different topics in the broad field of microscale swimming, focussing on ...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
Active matter systems are continuously consuming energy from the environment to achieve different pu...
Studies of model microswimmers have significantly contributed to the understanding of the principles...
One of the few possible mechanisms for self-propulsion at low Reynolds number is undulations of a pa...
In this thesis, we investigate magnetically actuated rigid microswimmers based on analytical and num...
We discuss a reduced model to compute the motion of slender swimmers which propel themselves by prop...
The motion of microswimmers in complex flows is ruled by the interplay between swimmer propulsion an...
This dissertation contains original research on a range of problems involving the locomotion of diff...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
We combine a general formulation of microswimmer equations of motion with a numerical beadshell mode...
With the continuing rapid development of artificial microrobots and active particles, questions of m...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
We study the dynamics of a prolate spheroidal microswimmer in Poiseuille flow for different flow geo...
We study two microswimmers consisting of a spherical rigid head and a passive elastic tail. In the f...
In this thesis, we explore different topics in the broad field of microscale swimming, focussing on ...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
Active matter systems are continuously consuming energy from the environment to achieve different pu...
Studies of model microswimmers have significantly contributed to the understanding of the principles...
One of the few possible mechanisms for self-propulsion at low Reynolds number is undulations of a pa...
In this thesis, we investigate magnetically actuated rigid microswimmers based on analytical and num...
We discuss a reduced model to compute the motion of slender swimmers which propel themselves by prop...
The motion of microswimmers in complex flows is ruled by the interplay between swimmer propulsion an...
This dissertation contains original research on a range of problems involving the locomotion of diff...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
We combine a general formulation of microswimmer equations of motion with a numerical beadshell mode...
With the continuing rapid development of artificial microrobots and active particles, questions of m...
Bio-inspired designs can provide an answer to engineering problems such as swimming strategies at th...
We study the dynamics of a prolate spheroidal microswimmer in Poiseuille flow for different flow geo...