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Critical vortex shedding in a strongly interacting fermionic superfluid

Cited 21 time in Web of Science Cited 20 time in Scopus
Authors

Park, Jee Woo; Ko, Bumsuk; Shin, Y.

Issue Date
2018-11
Publisher
American Physical Society
Citation
Physical Review Letters, Vol.121 No.22, p. 225301
Abstract
We study the critical vortex shedding in a strongly interacting fermionic superfluid of Li-6 across the BEC-BCS crossover. By moving an optical obstacle in the sample and directly imaging the vortices after the time of flight, the critical velocity u(vor) for vortex shedding is measured as a function of the obstacle travel distance L. The observed uvor increases with decreasing L, where the rate of increase is the highest in the unitary regime. In the deep Bose-Einstein condensation regime, an empirical dissipation model well captures the dependence of u(vor) on L, characterized by a constant value of n = -[d(1/u(vor))/d(1/L)]. However, as the system is tuned across the resonance, a step increase of. develops about a characteristic distance L-c as L is increased, where L-c is comparable to the obstacle size. This bimodal behavior is strengthened as the system is tuned towards the BCS regime. We attribute this evolution of u(vor) to the emergence of the underlying fermionic degree of freedom in the vortex-shedding dynamics of a Fermi condensate.
ISSN
0031-9007
Language
English
URI
https://hdl.handle.net/10371/149926
DOI
https://doi.org/10.1103/PhysRevLett.121.225301
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