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Paper detail

Characteristics of Two-Dimensional Quantum Turbulence in a Compressible Superfluid

Under suitable forcing a fluid exhibits turbulence, with characteristics strongly affected by the fluid's confining geometry. Here we study two-dimensional quantum turbulence in a highly oblate Bose-Einstein condensate in an annular trap. As a compressible quantum fluid, this system affords a rich phenomenology, allowing coupling between vortex and acoustic energy. Small-scale stirring generates an experimentally observed disordered vortex distribution that evolves into large-scale flow in the form of a persistent current. Numerical simulation of the experiment reveals additional characteristics of two-dimensional quantum turbulence: spontaneous clustering of same-circulation vortices, and an incompressible energy spectrum with $k^{-5/3}$ dependence for low wavenumbers $k$ and $k^{-3}$ dependence for high $k$.

preprint2012arXivOpen access
T. W. NeelyA. S. BradleyE. C. SamsonS. J. RooneyE. M. WrightK. J. H. LawR. Carretero-GonzálezP. G. KevrekidisM. J. DavisB. P. Anderson
cond-mat.quant-gas
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T. W. NeelyA. S. BradleyE. C. SamsonS. J. RooneyE. M. WrightK. J. H. LawR. Carretero-GonzálezP. G. KevrekidisM. J. DavisB. P. Anderson

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