Cutting, Splicing, and Kelvin Waves

Martin Scheeler; Dustin Kleckner; William Irvine

Cutting, Splicing, and Kelvin Waves

ORAL

Abstract

Recent experimental advances have allowed us to create, visualize and track vortices of prescribed shape and topology in classical fluids. We study the effect of surgery (cutting and splicing) on the evolution of the geometry and topology of these vortex loops, with a particular focus on the wave-like excitations generated by these operations. We interpret the dynamics of these excitations and the role they play within the broader context of vortex evolution.

^*This work was supported by the National Science Foundation Materials Research and Engineering Centers (MRSEC) Program at the University of Chicago (DMR-0820054) and the Packard Foundation through a Packard fellowship.

Nov. 25, 2013, 4:14 PM – Nov. 25, 2013, 4:27 PM

Authors

Martin Scheeler
- University of Chicago
Dustin Kleckner
- University of Chicago
William Irvine
- University of Chicago