Suppression of turbulence in the drift-resistive plasma where zonal flow changes direction

Kim, Chang-Bae

doi:10.1017/s0022377820000549

J. Plasma Phys.

2020

DOI: 10.1017/s0022377820000549

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Suppression of turbulence in the drift-resistive plasma where zonal flow changes direction

Chang-Bae Kim

Abstract: The edge region of quasi-adiabatic plasma is pedagogically simulated by the dynamics between the electric potential $\unicode[STIX]{x1D711}$ and the electron density $n$ whose equilibrium density gradient is negative and held fixed. The zonal flow (ZF) $V$ is either enforced sinusoidally or generated self-consistently from the turbulence. Cross-phase $\unicode[STIX]{x1D6FF}$ between $\u… Show more

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Cited by 2 publications

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Influence of zonal flow and density on resistive drift wave turbulent transport

Zhang

Krasheninnikov

2020

Physics of Plasmas

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The generations of zonal flow (ZF) and density (ZD) and their feedback on the resistive drift wave turbulent transport are investigated within the modified Hasegawa-Wakatani model. With proper normalization, the system is only controlled by an effective adiabatic parameter, α, where the ZF dominates the collisional drift wave (DW) turbulence in the adiabatic limit α>1. By conducting direct numerical simulations, we found that the ZF can significantly reduce the transport by trapping the DWs in the vicinities of its extrema for α>1, whereas the ZD itself has little impact on the turbulence but can only assist ZF to further decrease the transport by flattening the local plasma density gradient.

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Influence of zonal flow and density on resistive drift wave turbulent transport

Zhang

Krasheninnikov

2020

Physics of Plasmas

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Drift waves enstrophy, zonal flow, and nonlinear evolution of the modulational instability

et al. 2021

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The interaction of the drift wave (DW) turbulence and zonal flow (ZF) is investigated with the modified Hasegawa–Mima equation taking into account the backreaction of ZF velocity on DW turbulence. It is shown that the y-averaged enstrophy of DW turbulence and the velocity of ZF are intrinsically related. By utilizing this feature, a nonlinear stage of DW modulational instability is considered within the framework of the wave kinetic equation. It is shown that in this approximation, the nonlinear stage of the modulational instability results in the collapsing solutions, accompanied by the “wave breaking” phenomenon. Numerical simulations based on the Hasegawa–Mima equation show that for a weak DW turbulence, Φ̃=(eφ̃/Te) (Ln/ρs)⪝1, the collapsing-like features on both ZF and y-averaged enstrophy of DW turbulence decay in time and then re-emerge again at different locations. For the case of a strong DW turbulence, Φ̃>1, where nonlinear interactions of DW harmonics dominate, stable spatial structures of ZF and y-averaged enstrophy of DW turbulence emerge.

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Suppression of turbulence in the drift-resistive plasma where zonal flow changes direction

Cited by 2 publications

References 31 publications

Influence of zonal flow and density on resistive drift wave turbulent transport

Influence of zonal flow and density on resistive drift wave turbulent transport

Drift waves enstrophy, zonal flow, and nonlinear evolution of the modulational instability

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