Oscillatory surface deformation of paramagnetic rare-earth solutions driven by an inhomogeneous magnetic field

Physical Review. E
B FritzscheK Eckert

Abstract

The deformation of the free surface of a paramagnetic liquid subjected to a nonuniform magnetic field is studied. A transient deformation of the surface caused by the interplay of gravity, magnetic field, and surface tension is observed when a permanent magnet is moved vertically downward to the free surface of the liquid. Different concentrations of rare-earth-metal salt (DyCl_{3}) are used and different magnet velocities are studied. The deformation of the interface is followed optically by means of a microscope and recorded with a high-speed camera. The experimental results are compared and discussed with complementary numerical simulations. Detailed results are given for the static shape of the deformed surface and the temporal evolution of the surface deformation below the center of the magnet. The frequency of the surface oscillations is found to depend on the concentration of the salt and is compared with analytical findings. Finally, a potential application of the effects observed is presented.

References

Oct 4, 2003·Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics·A T CatherallL Eaves
Jul 14, 2006·The Journal of Physical Chemistry. B·M FujiwaraY Tanimoto
May 7, 2009·Proceedings of the National Academy of Sciences of the United States of America·J Michael D CoeyPlamen Stamenov
Dec 6, 2012·The Journal of Physical Chemistry Letters·Xuegeng YangKerstin Eckert
Oct 7, 2016·Physical Chemistry Chemical Physics : PCCP·Agnieszka Franczak Jan Fransaer
Oct 3, 2017·The Journal of Physical Chemistry Letters·Isadora R RodriguesJan Fransaer
Feb 20, 2020·Physical Review. E·Zhe LeiKerstin Eckert

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Citations

Oct 23, 2021·The Journal of Physical Chemistry. C, Nanomaterials and Interfaces·Tim A ButcherJ M D Coey

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