Spontaneous profile self-organization in a simple realization of drift-wave turbulence

We report the observation of a transport bifurcation that occurs by spontaneous self-organization of a drift-wave and shear flow system in a linear plasma device. As we increase the magnetic field above a threshold ( B C r  = 1200 G), a global transition occurs, with steepening of mean density and i...

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Bibliographic Details
Published in:Physics of plasmas 2016-05, Vol.23 (5)
Main Authors: Cui, L., Ashourvan, A., Thakur, S. C., Hong, R., Diamond, P. H., Tynan, G. R.
Format: Article
Language:English
Subjects:
Axial flow
Bifurcations
Density
Drift
Fluid dynamics
Ion temperature
Plasma physics
Reynolds stress
Shear flow
Shearing
Slopes
Temperature gradients
Transport phenomena
Turbulence
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Summary:We report the observation of a transport bifurcation that occurs by spontaneous self-organization of a drift-wave and shear flow system in a linear plasma device. As we increase the magnetic field above a threshold ( B C r  = 1200 G), a global transition occurs, with steepening of mean density and ion pressure profiles, onset of strong E × B shearing, a reduction of turbulence, and improved turbulent radial particle transport. An abrupt transition appears in the graph of turbulent particle flux versus density gradient. Hysteresis in the density gradient further confirms this transport bifurcation. The total Reynolds work on the flow sharply increases above threshold. This correlates with the increase of density steepness, which suggests the Reynolds stress-driven flow that plays an essential role in density steepening and transport bifurcation. A change in turbulence feature from drift waves (DWs) to a mix of DWs and ion temperature gradients also coincides with the transport bifurcation. Interesting phenomena related to the transport bifurcation are also reported; a local inward particle flux, the co-existence of ion and electron features, and a self-sustained axial flow absent momentum input.
ISSN:1070-664X
1089-7674
DOI:10.1063/1.4944819