Add to ORKGA system of ferromagnetic particles trapped at a liquid-liquid interface and subjected to a set of magnetic fields (magnetocapillary swimmers) is studied numerically using a hybrid method combining the pseudopotential lattice Boltzmann method and the discrete element method. After investigating the equilibrium properties of a single, two and three particles at the interface, we demonstrate a controlled motion of the swimmer formed by three particles. It shows a sharp dependence of the average center-of-mass speed on the frequency of the time-dependent external magnetic field. Inspired by experiments on magnetocapillary microswimmers, we interpret the obtained maxima of the swimmer speed by the optimal frequency centered around the character...
When ferromagnetic particles are suspended at an interface under magnetic fields, dipole-dipole inte...
We study magnetic artificial flagella whose swimming speed and direction can be controlled using lig...
This is the author accepted manuscript. The final version is available from AIP Publishing via the D...
A system of ferromagnetic particles trapped at a liquid-liquid interface and subjected to a set of m...
Self-assembled magnetocapillary microswimmers were experimentally demonstrated recently. Here, we st...
The dynamics of a triangular magnetocapillary swimmer is studied using the lattice Boltzmannmethod. ...
peer reviewedThe dynamics of a triangular magnetocapillary swimmer is studied using the lattice Bolt...
We present an experiment where three mesoscopic soft ferromag-netic beads are placed onto a liquid s...
Magnetic actuation of elasto-magnetic devices has long been proposed as a simple way to propel fluid...
This paper concerns the interaction of several ferromagnetic microswimmers, their motion and the res...
In the past decade, the engineering community has conceived, manufactured and tested micro-swimmers,...
We present an automated procedure for the design of optimal actuation for flagellar magnetic microsw...
When particles are suspended at air-water interfaces in the presence of a vertical magnetic field, d...
Copyright © 2011 Oxford University Press. This is a pre-copy-editing, author-produced PDF of an arti...
Magnetocapillary self-assemblies form when soft-ferromagnetic particles are deposited on a liquid su...
When ferromagnetic particles are suspended at an interface under magnetic fields, dipole-dipole inte...
We study magnetic artificial flagella whose swimming speed and direction can be controlled using lig...
This is the author accepted manuscript. The final version is available from AIP Publishing via the D...
A system of ferromagnetic particles trapped at a liquid-liquid interface and subjected to a set of m...
Self-assembled magnetocapillary microswimmers were experimentally demonstrated recently. Here, we st...
The dynamics of a triangular magnetocapillary swimmer is studied using the lattice Boltzmannmethod. ...
peer reviewedThe dynamics of a triangular magnetocapillary swimmer is studied using the lattice Bolt...
We present an experiment where three mesoscopic soft ferromag-netic beads are placed onto a liquid s...
Magnetic actuation of elasto-magnetic devices has long been proposed as a simple way to propel fluid...
This paper concerns the interaction of several ferromagnetic microswimmers, their motion and the res...
In the past decade, the engineering community has conceived, manufactured and tested micro-swimmers,...
We present an automated procedure for the design of optimal actuation for flagellar magnetic microsw...
When particles are suspended at air-water interfaces in the presence of a vertical magnetic field, d...
Copyright © 2011 Oxford University Press. This is a pre-copy-editing, author-produced PDF of an arti...
Magnetocapillary self-assemblies form when soft-ferromagnetic particles are deposited on a liquid su...
When ferromagnetic particles are suspended at an interface under magnetic fields, dipole-dipole inte...
We study magnetic artificial flagella whose swimming speed and direction can be controlled using lig...
This is the author accepted manuscript. The final version is available from AIP Publishing via the D...