We discuss a reduced model to compute the motion of slender swimmers which propel themselves by propagating a bending wave along their body. Our approach is based on the use of resistive force theory for the evaluation of the viscous forces and torques exerted by the surrounding fluid, and on discretizing the kinematics of the swimmer by representing its body through an articulated chain of N rigid links capable of planar deformations. The resulting system of ODEs governing the motion of the swimmer is easy to assemble and to solve, making our reduced model a valuable tool in the design and optimization of bio-inspired engineered microdevices. We test the accuracy and robustness of our approach on three benchmark examples: Purcell's 3-l...
Many cells exploit the bending or rotation of flagellar filaments in order to self-propel in viscous...
In this thesis, we explore different topics in the broad field of microscale swimming, focussing on ...
Studies of model microswimmers have significantly contributed to the understanding of the principles...
We discuss a reduced model to compute the motion of slender swimmers which propel themselves by prop...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
The self-propulsion of artificial and biological microswimmers (or active colloidal particles) has o...
We study the local controllability properties of 2D and 3D bio-mimetic swimmers employing the chang...
In this thesis, we focus on two problems relevant to the swimming of slender bodies at low Reynolds ...
We study the local controllability properties of 2D and 3D bio-mimetic swimmers employing the chang...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
The motion of biological systems in fluids is inherently complex, even for the simplest organisms. I...
Cell motility in viscous fluids is ubiquitous and affects many biological processes, including repro...
Inertial swimmers use flexural movements to push water and generate thrust. We quantify this dynamic...
Three different models, relating to the study of microswimmers immersed in a low Reynolds number flui...
Many cells exploit the bending or rotation of flagellar filaments in order to self-propel in viscous...
In this thesis, we explore different topics in the broad field of microscale swimming, focussing on ...
Studies of model microswimmers have significantly contributed to the understanding of the principles...
We discuss a reduced model to compute the motion of slender swimmers which propel themselves by prop...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
The self-propulsion of artificial and biological microswimmers (or active colloidal particles) has o...
We study the local controllability properties of 2D and 3D bio-mimetic swimmers employing the chang...
In this thesis, we focus on two problems relevant to the swimming of slender bodies at low Reynolds ...
We study the local controllability properties of 2D and 3D bio-mimetic swimmers employing the chang...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
The motion of biological systems in fluids is inherently complex, even for the simplest organisms. I...
Cell motility in viscous fluids is ubiquitous and affects many biological processes, including repro...
Inertial swimmers use flexural movements to push water and generate thrust. We quantify this dynamic...
Three different models, relating to the study of microswimmers immersed in a low Reynolds number flui...
Many cells exploit the bending or rotation of flagellar filaments in order to self-propel in viscous...
In this thesis, we explore different topics in the broad field of microscale swimming, focussing on ...
Studies of model microswimmers have significantly contributed to the understanding of the principles...