One of the few possible mechanisms for self-propulsion at low Reynolds number is undulations of a passive elastic tail, as proposed in the classical work of Purcell (1977). This effect is studied here by investigating a variant of Purcell’s three-link swimmer model where the front joint angle is periodically actuated while the rear joint is driven by a passive torsional spring. The dynamic equations of motion are formulated and explicit expressions for the leading-order solution are derived by using perturbation expansion. The dependence of the motion on the actuation amplitude and frequency is analyzed, and optimization with respect to the swimmer’s geometry is conducted
Studies of model microswimmers have significantly contributed to the understanding of the principles...
International audienceIn this paper we address the question of the optimal design for the Purcell 3-...
International audienceWe consider a low Reynolds number artificial swimmer that consists of an activ...
One of the few possible mechanisms for self-propulsion at low Reynolds number is undulations of a pa...
One of the simplest model swimmers at low Reynolds number is the three-sphere swimmer by Najafi and ...
We study two microswimmers consisting of a spherical rigid head and a passive elastic tail. In the f...
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 three-sphere swimmer by Najafi and Golestanian is composed of three spheres connected by two arm...
Micron-scale swimmers move in the realm of negligible inertia, dominated by viscous drag forces. Act...
Micron-scale swimmers move in the realm of negligible inertia, dominated by viscous drag forces. In ...
In this paper we address the question of the optimal design for the Purcell three-link swimmer. More...
Studies of model microswimmers have significantly contributed to the understanding of the principles...
International audienceIn this paper we address the question of the optimal design for the Purcell 3-...
International audienceWe consider a low Reynolds number artificial swimmer that consists of an activ...
One of the few possible mechanisms for self-propulsion at low Reynolds number is undulations of a pa...
One of the simplest model swimmers at low Reynolds number is the three-sphere swimmer by Najafi and ...
We study two microswimmers consisting of a spherical rigid head and a passive elastic tail. In the f...
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 three-sphere swimmer by Najafi and Golestanian is composed of three spheres connected by two arm...
Micron-scale swimmers move in the realm of negligible inertia, dominated by viscous drag forces. Act...
Micron-scale swimmers move in the realm of negligible inertia, dominated by viscous drag forces. In ...
In this paper we address the question of the optimal design for the Purcell three-link swimmer. More...
Studies of model microswimmers have significantly contributed to the understanding of the principles...
International audienceIn this paper we address the question of the optimal design for the Purcell 3-...
International audienceWe consider a low Reynolds number artificial swimmer that consists of an activ...