Superfluids provide new insight into turbulence

Superfluids provide new insight into turbulence.
Credit: The University of Queensland

Eddies in an exotic liquid known as a superfluid merge to form large vortices, analogous to how cyclones form in the turbulent atmosphere.

The new research, by a team from The University of Queensland, the ARC Centre of Excellence for Engineered Quantum Systems (EQUS) and the ARC Centre of Excellence in Future Low-Energy Electronics Technologies (FLEET) will be important for emerging technological applications of superfluidity, such as precision sensing.

Lead author and theorist Dr Matt Reeves said the team’s results provide experimental validation of a 70-year-old theory – a model for two-dimensional vortex equilibrium by Nobel Laureate Lars Onsager.

“Large, long-lived vortices like cyclones or Jupiter’s Great Red Spot often form out of turbulent fluid flows, such as the atmospheres of planets,” he said.

“Onsager’s model explains the existence of these structures, but so far experiments have tended to conflict with the predictions,” he said.

“A key complication is that most fluids are viscous, meaning they resist flow.

“Superfluids, which have no viscosity, are therefore ideal candidates to realise Onsager’s model.”

Dr Tyler Neely, who led the experiments, said the team studied the behaviour of vortices in a superfluid known as a Bose–Einstein condensate, which is produced by cooling a gas of rubidium atoms to extremely cold temperatures.

“We created a thin disk of the superfluid and then used lasers to inject vortices at carefully specified locations,” he said.

“The vortices mixed rapidly, merging into a single large cluster in only a few seconds, much like a large cyclone forming from the turbulent atmosphere.

“However, the most exciting thing was the remarkable agreement between theory and experiment—the theory predicted the shape of the final giant vortex structures in the superfluid exceptionally well.

“Our results suggest superfluids can be used to learn new things about turbulence, and will be crucial for the development of precision sensors based on superfluids.”

This work answers some of the key outstanding questions from previous work by the team on vortex clusters, which was published in 2019 in Science.

The new research is published in Physical Review X (DOI: 10.1103/PhysRevX.12.011031).

Journal: Physical Review X
DOI: 10.1103/PhysRevX.12.011031 
Article Publication Date: 16-Feb-2022

Media Contact

Dominic Jarvis
University of Queensland
dominic.jarvis@uq.edu.au
Office: 041-333-4924

Expert Contacts

Dr Tyler Neely
The University of Queensland
t.neely@uq.edu.au
Cell: +61 431 999 606

Dr Matt Reeves
The University of Queensland
m.reeves@uq.edu.au

Media Contact

Dominic Jarvis
University of Queensland

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