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Stability and dynamics of magnetocapillary interactions

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arxiv 1410.0429 v2 pith:GCHOPMWN submitted 2014-10-02 physics.flu-dyn cond-mat.soft

Stability and dynamics of magnetocapillary interactions

classification physics.flu-dyn cond-mat.soft
keywords beadsmagnetocapillarystabilitydynamicsfieldmagneticperiodicswimming
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Recent experiments have shown that floating ferromagnetic beads, under the influence of an oscillating background magnetic field, can move along a liquid-air interface in a sustained periodic locomotion [Lumay et al., Soft Matter, 2013, 9, 2420]. Dynamic activity arises from a periodically induced dipole-dipole repulsion between the beads acting in concert with capillary attraction. We investigate analytically and numerically the stability and dynamics of this magnetocapillary swimming, and explore other related topics including the steady and periodic equilibrium configurations of two and three beads, and bead collisions. The swimming speed and system stability depend on a dimensionless measure of the relative repulsive and attractive forces which we term the magnetocapillary number. An oscillatory magnetic field may stabilize an otherwise unstable collinear configuration, and striking behaviors are observed in fast transitions to and from locomotory states, offering insight into the behavior and self-assembly of interface-bound micro-particles.

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