Add to ORKGHydrodynamic interaction between swimming organisms has long been a topic of interest in fluid-structure interaction. Especially, collective motion of swimming organisms such as bacteria, spermatozoa, and worms has recently received a great deal of attention from researchers in many disciplines, including biology, mathematics, engineering, food science, etc. To fully understand the collective behaviour of swimmers in dilute suspensions, near-field hydrodynamics need to be investigated. In an inertial regime, where Reynolds numbers range roughly from 0.1 to 100, and both advection and diffusion effects are present, the flow dynamics are described by the Navier-Stokes equations. We employed the immersed boundary method to couple the fluid and...
Many animals in nature travel in groups either for protection, survival, or endurance. Among these, ...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
We investigate the hydrodynamic interactions between micro-organisms swimming at low Reynolds number...
Both biological swimming microorganisms and artificial active particles capable of propulsion have r...
The study of the flow field resulting from suspensions of swimmers at moderate Reynolds numbers, alo...
The study of pair-wise interactions between swimming microorganisms is fundamental to the understand...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
Active bodies undergo self-propulsive motion in a fluid medium and span a broad range of length and ...
We present two-dimensional simulations of chemotactic self-propelled bacteria swimming in ...
Bio-convection, biofilm forming or mechanics of reproduction are connected to the motility and colle...
International audienceWe examine the phenomenon of hydrodynamic-induced cooperativity for pairs of f...
This thesis is devoted to understanding the effect of inter-particle interactions, external fields a...
Abstract. Biologically active suspensions, such as suspensions of swimming mi-croorganisms, exhibit ...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
Many animals in nature travel in groups either for protection, survival, or endurance. Among these, ...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
We investigate the hydrodynamic interactions between micro-organisms swimming at low Reynolds number...
Both biological swimming microorganisms and artificial active particles capable of propulsion have r...
The study of the flow field resulting from suspensions of swimmers at moderate Reynolds numbers, alo...
The study of pair-wise interactions between swimming microorganisms is fundamental to the understand...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
AbstractThis article evaluates the hydrodynamic interactions between two swimming bacteria precisely...
Active bodies undergo self-propulsive motion in a fluid medium and span a broad range of length and ...
We present two-dimensional simulations of chemotactic self-propelled bacteria swimming in ...
Bio-convection, biofilm forming or mechanics of reproduction are connected to the motility and colle...
International audienceWe examine the phenomenon of hydrodynamic-induced cooperativity for pairs of f...
This thesis is devoted to understanding the effect of inter-particle interactions, external fields a...
Abstract. Biologically active suspensions, such as suspensions of swimming mi-croorganisms, exhibit ...
AbstractTo swim, a bacterium pushes against the fluid within which it is immersed, generating fluid ...
Many animals in nature travel in groups either for protection, survival, or endurance. Among these, ...
ABSTRACT To swim, a bacterium pushes against the fluid within which it is immersed, generating fluid...
We investigate the hydrodynamic interactions between micro-organisms swimming at low Reynolds number...