Quantifying vorticity in magnetic particle suspensions driven by symmetric and asymmetric multiaxial fields.

@article{Martin2015QuantifyingVI,
  title={Quantifying vorticity in magnetic particle suspensions driven by symmetric and asymmetric multiaxial fields.},
  author={James E. Martin and Kyle J. Solis},
  journal={Soft matter},
  year={2015},
  volume={11 36},
  pages={
          7130-42
        }
}
We recently reported two methods of inducing vigorous fluid vorticity in magnetic particle suspensions. The first method employs symmetry-breaking rational fields. These fields are comprised of two orthogonal ac components whose frequencies form a rational number and an orthogonal dc field that breaks the symmetry of the biaxial ac field to create the parity required to induce deterministic vorticity. The second method is based on rational triads, which are fields comprised of three orthogonal… 
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On the origin of vorticity in magnetic particle suspensions subjected to triaxial fields.
TLDR
This model proposes that particles form volatile chains that follow, but lag behind, the dynamic field vector, which is consistent with the predictions of symmetry theory and gives reasonable agreement with previously reported torque density measurements for a variety of triaxial fields.
Creating orbiting vorticity vectors in magnetic particle suspensions through field symmetry transitions-a route to multi-axis mixing.
TLDR
This paper shows that continuous, 3-d control of the vorticity vector is possible by progressively transitioning the field symmetry by applying a dc bias along one of the principal axes, which is a 1-d set that is symmetric about zero and is along a field direction.

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