Regimes of motion of magnetocapillary swimmers.
Alexander SukhovMaxime HubertGalien GrosjeanOleg TrosmanSebastian ZieglerYlona CollardNicolas VandewalleAna-Sunc Ana SmithJens HartingPublished in: The European physical journal. E, Soft matter (2021)
The dynamics of a triangular magnetocapillary swimmer is studied using the lattice Boltzmann method. We extend on our previous work, which deals with the self-assembly and a specific type of the swimmer motion characterized by the swimmer's maximum velocity centred around the particle's inverse viscous time. Here, we identify additional regimes of motion. First, modifying the ratio of surface tension and magnetic forces allows to study the swimmer propagation in the regime of significantly lower frequencies mainly defined by the strength of the magnetocapillary potential. Second, introducing a constant magnetic contribution in each of the particles in addition to their magnetic moment induced by external fields leads to another regime characterized by strong in-plane swimmer reorientations that resemble experimental observations.