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Capillary assemblies in a rotating magnetic field (CROSBI ID 272918)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Grosjean, Galien ; Hubert, Maxime ; Collard, Ylona ; Sukhov, Alexander ; Harting, Jens ; Smith, Ana-Sunčana ; Vandewalle, Nicolas Capillary assemblies in a rotating magnetic field // Soft matter, 15 (2019), 44; 9093-9103. doi: 10.1039/c9sm01414d

Podaci o odgovornosti

Grosjean, Galien ; Hubert, Maxime ; Collard, Ylona ; Sukhov, Alexander ; Harting, Jens ; Smith, Ana-Sunčana ; Vandewalle, Nicolas

engleski

Capillary assemblies in a rotating magnetic field

Small objects floating on a fluid have a tendency to aggregate due to capillary forces. This effect has been used, with the help of a magnetic induction field, to assemble submillimeter metallic spheres into a variety of structures, whose shape and size can be tuned. Under time-varying fields, these assemblies can propel themselves due to a breaking of time reversal symmetry in their adopted shapes. In this article, we study the influence of an in-plane rotation of the magnetic field on these structures. Various rotational modes have been observed with different underlying mechanisms. The magnetic properties of the particles cause them to rotate individually. Dipole–dipole interactions in the assembly can cause the whole structure to align with the field. Finally, non-reciprocal deformations can power the rotation of the assembly. Symmetry plays an important role in the dynamics, as well as the frequency and amplitude of the applied field. Understanding the interplay of these effects is essential, both to explain previous observations and to develop new functions for these assemblies.

magnetocapillary assemblies ; microswimmers

This work was financially supported by FNRS PDR grant T.0129.18, as well as the DFG Priority Programme SPP 1726 “Microswimmers – From Single Particle Motion to Collective Behaviour”. GG thanks FRIA for financial support. Computational resources have been provided by the Consortium des Équipements de Calcul Intensif (CÉCI), funded by the Fonds de la Recherche Scientifique de Belgique (F.R.S.-FNRS) under Grant No. 2.5020.11.

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Podaci o izdanju

15 (44)

2019.

9093-9103

objavljeno

1744-683X

1744-6848

10.1039/c9sm01414d

Povezanost rada

Fizika, Kemija

Poveznice
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