Chasing the multi-modal plasma response in MAST-U

IF 2.1 2区 物理与天体物理 Q2 PHYSICS, FLUIDS & PLASMAS
S Munaretto, Y Q Liu, D A Ryan, G Z Hao, J W Berkery, S Blackmore, L Kogan
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引用次数: 0

Abstract

Achieving edge localized modes (ELMs) suppression in spherical tokamaks by applying resonant magnetic perturbations (RMPs) has proven challenging. The poloidal spectrum of the applied RMP is a key parameter that has an impact on the capability to mitigate and eventually suppress ELMs. In this work the resistive magnetohydrodynamic code MARS-F (Liu et al 2000 Phys. Plasmas 7 3681) is used to evaluate the possibility of directly measuring the plasma response in MAST-U, and particularly its variation as function of the applied poloidal spectrum, in order to guide the experimental validation of the predicted best RMP configuration for ELM suppression. Toroidal mode number n = 2 RMP is considered to minimize the presence of sidebands, and to avoid the deleterious core coupling of n = 1. Singular Value Decomposition is used to highlight linearly independent structures in the simulated magnetic 3D fields and how those structures can be measured at the wall where the magnetic sensors are located. Alternative ways to measure the multimodal plasma response and how they can be used to infer the best RMP configuration to achieve ELM suppression are also presented, including the plasma displacement and the 3D footprints at the divertor plates.
追寻 MAST-U 中的多模式等离子体响应
事实证明,在球形托卡马克中通过应用共振磁扰动(RMPs)来实现边缘局部模态(ELMs)抑制具有挑战性。所应用的 RMP 的极谱是一个关键参数,会影响减轻并最终抑制 ELM 的能力。在这项工作中,电阻磁流体动力学代码 MARS-F(Liu 等人,2000 年,Phys. Plasmas7 3681)被用来评估直接测量 MAST-U 中等离子体响应的可能性,特别是其作为外加极谱函数的变化,以指导对预测的抑制 ELM 的最佳 RMP 配置的实验验证。环形模式数 n = 2 RMP 被认为可以最大限度地减少边带的存在,并避免 n = 1 的有害核心耦合。奇异值分解用于突出模拟三维磁场中的线性独立结构,以及如何在磁传感器所在的壁面测量这些结构。此外,还介绍了测量多模态等离子体响应的其他方法,以及如何利用这些方法来推断实现 ELM 抑制的最佳 RMP 配置,包括等离子体位移和分流板的三维足迹。
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来源期刊
Plasma Physics and Controlled Fusion
Plasma Physics and Controlled Fusion 物理-物理:核物理
CiteScore
4.50
自引率
13.60%
发文量
224
审稿时长
4.5 months
期刊介绍: Plasma Physics and Controlled Fusion covers all aspects of the physics of hot, highly ionised plasmas. This includes results of current experimental and theoretical research on all aspects of the physics of high-temperature plasmas and of controlled nuclear fusion, including the basic phenomena in highly-ionised gases in the laboratory, in the ionosphere and in space, in magnetic-confinement and inertial-confinement fusion as well as related diagnostic methods. Papers with a technological emphasis, for example in such topics as plasma control, fusion technology and diagnostics, are welcomed when the plasma physics is an integral part of the paper or when the technology is unique to plasma applications or new to the field of plasma physics. Papers on dusty plasma physics are welcome when there is a clear relevance to fusion.
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