非线性陀螺动力学模拟中的低通滤波引起的数值耗散

IF 2 3区 物理与天体物理 Q3 PHYSICS, FLUIDS & PLASMAS Physics of Plasmas Pub Date : 2024-08-14 DOI:10.1063/5.0222980
Zihao Wang, Shaojie Wang
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引用次数: 0

摘要

去锯齿是消除非线性模拟(如非线性陀螺动能湍流模拟)中锯齿误差的重要程序。在周期维度上消除混叠的理想方法是傅立叶截断法。在非周期性方向上应用有限差分低通滤波,可以强力抑制混叠模式。与此同时,它还会在物理现实解区域引起数值耗散。分析表明,在满足最高精度阶次的理想约束条件下,长波耗散系数与波数的 (Np-3) 次方成正比,其中 Np 是滤波点的数量。将优化的低通滤波应用于非线性陀螺动湍流模拟后的数值结果表明,九点格式保留了托卡马克等离子体中完整的中观带状结构,因此适用于长时间非线性湍流模拟。
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Numerical dissipation induced by the low-pass filtering in nonlinear gyrokinetic simulations
De-aliasing is an essential procedure for eliminating the aliasing error in nonlinear simulations, such as nonlinear gyrokinetic turbulence simulations. An ideal approach to de-aliasing in the periodic dimension is the Fourier truncation. Finite difference low-pass filtering applied in the non-periodic direction strongly dampens aliasing modes. At the same time, it induces numerical dissipation in the region of the physically realistic solution. It is shown analytically that the long-wave dissipation coefficient is proportional to the (Np−3) power of the wavenumber under desirable constraints satisfying the highest order of accuracy, where Np is the number of filter points. Numerical results after applying the optimized low-pass filtering to the nonlinear gyrokinetic turbulence simulation suggest that the nine-point format preserves intact mesoscopic zonal structures in tokamak plasma, and is therefore suitable for long-time nonlinear turbulence simulations.
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来源期刊
Physics of Plasmas
Physics of Plasmas 物理-物理:流体与等离子体
CiteScore
4.10
自引率
22.70%
发文量
653
审稿时长
2.5 months
期刊介绍: Physics of Plasmas (PoP), published by AIP Publishing in cooperation with the APS Division of Plasma Physics, is committed to the publication of original research in all areas of experimental and theoretical plasma physics. PoP publishes comprehensive and in-depth review manuscripts covering important areas of study and Special Topics highlighting new and cutting-edge developments in plasma physics. Every year a special issue publishes the invited and review papers from the most recent meeting of the APS Division of Plasma Physics. PoP covers a broad range of important research in this dynamic field, including: -Basic plasma phenomena, waves, instabilities -Nonlinear phenomena, turbulence, transport -Magnetically confined plasmas, heating, confinement -Inertially confined plasmas, high-energy density plasma science, warm dense matter -Ionospheric, solar-system, and astrophysical plasmas -Lasers, particle beams, accelerators, radiation generation -Radiation emission, absorption, and transport -Low-temperature plasmas, plasma applications, plasma sources, sheaths -Dusty plasmas
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