Guo Meng, Philipp Lauber, Zhixin Lu, Andreas Bergmann and Mireille Schneider
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引用次数: 0
Abstract
The spatio-temporal evolution of the energetic particles in the transport time scale in tokamak plasmas is a key issue of the plasmas confinement, especially in burning plasmas. In order to include sources and sinks and collisional slowing down processes, a new solver, ATEP-3D was implemented to simulate the evolution of the energetic particle (EP) distribution in the three-dimensional constants of motion (CoM) space. The Fokker–Planck collision operator represented in the CoM space is derived and numerically calculated. The collision coefficients are averaged over the unperturbed orbits to capture the fundamental properties of EPs. ATEP-3D is fully embedded in ITER IMAS framework and combined with the LIGKA/HAGIS codes. The finite volume method and the implicit Crank-Nicholson scheme are adopted due to their optimal numerical properties for transport time scale studies. ATEP-3D allows the analysis of the particle and power balance with the source and sink during the transport process to evaluate the EP confinement properties.
托卡马克等离子体中高能粒子在传输时间尺度上的时空演变是等离子体约束的一个关键问题,尤其是在燃烧等离子体中。为了包括源和汇以及碰撞减速过程,我们采用了一种新的求解器 ATEP-3D 来模拟三维运动常数(CoM)空间中高能粒子(EP)分布的演变。推导并数值计算了 CoM 空间中的福克-普朗克碰撞算子。碰撞系数取未扰动轨道的平均值,以捕捉 EP 的基本特性。ATEP-3D 完全嵌入了 ITER IMAS 框架,并与 LIGKA/HAGIS 代码相结合。由于有限体积法和隐式 Crank-Nicholson 方案在传输时间尺度研究方面具有最佳数值特性,因此采用了这两种方法。ATEP-3D 允许在传输过程中分析粒子与源和汇的功率平衡,以评估 EP 的约束特性。
期刊介绍:
Nuclear Fusion publishes articles making significant advances to the field of controlled thermonuclear fusion. The journal scope includes:
-the production, heating and confinement of high temperature plasmas;
-the physical properties of such plasmas;
-the experimental or theoretical methods of exploring or explaining them;
-fusion reactor physics;
-reactor concepts; and
-fusion technologies.
The journal has a dedicated Associate Editor for inertial confinement fusion.
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