Polygons on a rotating fluid surface

Thomas R.N. Jansson, Martin P. Haspang, Kåre H. Jensen, Pascal Hersen, Tomas Bohr

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Abstract

We report a novel and spectacular instability of a fluid surface in a rotating system. In a flow driven by rotating the bottom plate of a partially filled, stationary cylindrical container, the shape of the free surface can spontaneously break the axial symmetry and assume the form of a polygon rotating rigidly with a speed different from that of the plate. With water, we have observed polygons with up to 6 corners. It has been known for many years that such flows are prone to symmetry breaking, but apparently the polygonal surface shapes have never been observed. The creation of rotating internal waves in a similar setup was observed for much lower rotation rates, where the free surface remains essentially flat [J. M. Lopez , J. Fluid Mech. 502, 99 (2004).]. We speculate that the instability is caused by the strong azimuthal shear due to the stationary walls and that it is triggered by minute wobbling of the rotating plate.
Original languageEnglish
JournalPhysical Review Letters
Volume96
Issue number17
Pages (from-to)174502
ISSN0031-9007
DOIs
Publication statusPublished - 2006

Bibliographical note

Copyright 2006 American Physical Society

Keywords

  • BOTTOM
  • DRIVEN
  • VORTEX BREAKDOWN
  • SYMMETRY-BREAKING
  • CYLINDER
  • FLOW
  • SPIN-UP

Cite this

Jansson, T. R. N., Haspang, M. P., Jensen, K. H., Hersen, P., & Bohr, T. (2006). Polygons on a rotating fluid surface. Physical Review Letters, 96(17), 174502. https://doi.org/10.1103/PhysRevLett.96.174502