Add to ORKGWe unveil orbital topologies of two nearby swimming microorganisms using an artificial microswimmer, called Quadroar. Depending on the initial conditions of the microswimmers, we find diverse families of attractors including dynamical equilibria, bound orbits, braids, and pursuit-evasion games. We also observe a hydrodynamic slingshot effect: a system of two hydrodynamically interacting swimmers moving along braids can advance in space faster than non-interacting swimmers that have the same actuation parameters and initial conditions as the interacting ones. Our findings suggest the existence of complex collective behaviors of microswimmers, from equilibrium to rapidly streaming states
This dissertation addresses various aspects of realizing a three-dimensional (3D) controlled flock o...
The spatiotemporal dynamics in systems of active self-propelled particles is controlled by the propu...
Locomotion of autonomous microswimmers is a fascinating field at the cutting edge of science. It com...
We unveil orbital topologies of two nearby swimming microorganisms using an artificial microswimmer,...
Cooperative motion in biological microswimmers is crucial for their survival as it facilitates adhes...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior of microswimmers at l...
Cooperative motion in biological microswimmers is crucial for their survival as it facilitates adhes...
At small length scales, low velocities, and high viscosity, the effects of inertia on motion through...
Active matter systems are continuously consuming energy from the environment to achieve different pu...
Locomotion and transport of microorganisms in fluids is an essential aspect of life. Search for food...
This dissertation addresses various aspects of realizing a three-dimensional (3D) controlled flock o...
This dissertation addresses various aspects of realizing a three-dimensional (3D) controlled flock o...
The spatiotemporal dynamics in systems of active self-propelled particles is controlled by the propu...
Locomotion of autonomous microswimmers is a fascinating field at the cutting edge of science. It com...
We unveil orbital topologies of two nearby swimming microorganisms using an artificial microswimmer,...
Cooperative motion in biological microswimmers is crucial for their survival as it facilitates adhes...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior ofmicroswimmers at lo...
Hydrodynamic interactions are crucial for determining the cooperative behavior of microswimmers at l...
Cooperative motion in biological microswimmers is crucial for their survival as it facilitates adhes...
At small length scales, low velocities, and high viscosity, the effects of inertia on motion through...
Active matter systems are continuously consuming energy from the environment to achieve different pu...
Locomotion and transport of microorganisms in fluids is an essential aspect of life. Search for food...
This dissertation addresses various aspects of realizing a three-dimensional (3D) controlled flock o...
This dissertation addresses various aspects of realizing a three-dimensional (3D) controlled flock o...
The spatiotemporal dynamics in systems of active self-propelled particles is controlled by the propu...
Locomotion of autonomous microswimmers is a fascinating field at the cutting edge of science. It com...