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Dynamics of Fully Nonlinear Drift Wave-Zonal Flow Turbulence System in Plasmas

We present numerical simulations of fully nonlinear drift wave-zonal flow (DW-ZF) turbulence systems in a nonuniform magnetoplasma. In our model, the drift wave (DW) dynamics is pseudo-three-dimensional (pseudo-3D) and accounts for self-interactions among finite amplitude DWs and their coupling to the two-dimensional (2D) large amplitude zonal flows (ZFs). The dynamics of the 2D ZFs in the presence of the Reynolds stress of the pseudo-3D DWs is governed by the driven Euler equation. Numerical simulations of the fully nonlinear coupled DW-ZF equations reveal that shortscale DW turbulence leads to nonlinear saturated dipolar vortices, whereas the ZF sets in spontaneously and is dominated by a monopolar vortex structure. The ZFs are found to suppress the cross-field turbulent particle transport. The present results provide a better model for understanding the coexistence of short- and large-scale coherent structures, as well as associated subdued cross-field particle transport in magnetically confined fusion plasmas.

preprint2009arXivOpen access
P. K. ShuklaDastgeer Shaikh
physics.plasm-phphysics.comp-ph
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P. K. ShuklaDastgeer Shaikh

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