Saturation of magnetised plasma turbulence by propagating zonal flows

arXiv - PHYS - Plasma Physics Pub Date : 2024-09-03 DOI:arxiv-2409.02283
Richard Nies, Felix Parra, Michael Barnes, Noah Mandell, William Dorland
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Abstract

Strongly driven ion-scale turbulence in tokamak plasmas is shown to be regulated by a new propagating zonal flow mode, the toroidal secondary, which is nonlinearly supported by the turbulence. The mode grows and propagates due to the combined effects of zonal flow shearing and advection by the magnetic drift. Above a threshold in the turbulence level, small-scale toroidal secondary modes become unstable and shear apart turbulent eddies, forcing the turbulence level to remain near the threshold. By including the new zonal flow physics into a theory of turbulence saturation based on the critical balance conjecture, scaling laws for the turbulent heat flux, fluctuation spectra, and zonal flow amplitude are derived and shown to be satisfied in nonlinear gyrokinetic simulations.
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磁化等离子体湍流的饱和传播带流
研究表明,托卡马克等离子体中的强驱动离子尺度湍流受一种新的传播带状流模式--环状次级流模式--的调节,该模式得到湍流的非线性支持。该模式在带状流剪切和磁漂移平流的共同作用下增长和传播。当湍流水平超过临界值时,小尺度环状二次模态变得不稳定,并剪切开湍流涡,迫使湍流水平保持在临界值附近。通过将新的带状流物理学纳入基于临界平衡猜想的湍流饱和理论,推导出了湍流热通量、波动谱和带状流振幅的比例定律,并在非线性气动力模拟中得到了证实。
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arXiv - PHYS - Plasma Physics
arXiv - PHYS - Plasma Physics
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