Articolo in rivista, 2021, ENG, 10.1017/jfm.2020.1094
Classical and quantum vortex leapfrogging in two-dimensional channels
Galantucci, Luca; Sciacca, Michele; Parker, Nick G.; Baggaley, Andrew W.; Barenghi, Carlo F.
Università degli Studi di Palermo; Newcastle University
The leapfrogging of coaxial vortex rings is a famous effect which has been noticed since the times of Helmholtz. Recent advances in ultra-cold atomic gases show that the effect can now be studied in quantum fluids. The strong confinement which characterises these systems motivates the study of leapfrogging of vortices within narrow channels. Using the two-dimensional point vortex model, we show that in the constrained geometry of a two-dimensional channel the dynamics is richer than in an unbounded domain: alongside the known regimes of standard leapfrogging and the absence of it, we identify new regimes of image-driven leapfrogging and periodic orbits. Moreover, by solving the Gross-Pitaevskii equation for a Bose-Einstein condensate, we show that all four regimes exist for quantum vortices too. Finally, we discuss the differences between classical and quantum vortex leapfrogging which appear when the quantum healing length becomes significant compared to the vortex separation or the channel size, and when, due to high velocity, compressibility effects in the condensate becomes significant.
Journal of fluid mechanics (Print) 912
Keywords
Quantum fluids, Vortex dynamics, Vortex interactions
CNR authors
CNR institutes
ID: 475849
Year: 2021
Type: Articolo in rivista
Creation: 2022-12-31 19:00:48.000
Last update: 2022-12-31 19:00:48.000
CNR authors
External IDs
CNR OAI-PMH: oai:it.cnr:prodotti:475849
DOI: 10.1017/jfm.2020.1094
Scopus: 2-s2.0-85103799098