研究三角形对 JET-ILW H、D、T 和 DT 等离子体中杂质含量的影响

W. Gromelski, C. Angioni, A. Chomiczewska, D. Fajardo, I. Ivanova-Stanik, Damian King, E. Kowalska-Strzęciwilk, M. Maslov, E. Pawelec, P. Schneider
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摘要

这项工作介绍了利用可见光和真空-紫外光谱以及螺栓测量诊断法,在具有类似热核聚变实验堆壁的欧洲联合火炬(JET-ILW)上对中性束注入加热、ELMy H 模式脉冲中的 Be、中 Z(Ni、Cu、Fe)和高 Z(W)杂质进行研究的最新成果。调查的重点是评估等离子体三角形(δ)对氢(H)、氘(D)、氚(T)和氘氚(DT)等等离子体中杂质辐射的影响,脉冲情况见[P. A. Schneider, Nucl. Fusion 63, 112010 (2023)]。在低磁环形场(Bt=1.7 T)和等离子体电流(Ip=1.4 MA)的角-角配置(即水平 W 涂层岔流靶板上的内外撞击点)下的不同时间窗口中,δ 的变化范围为 0.21-0.31。结果证实,Be 通量随等离子体同位素和较低 δ 的增加而增加,导致靠近等离子体壁的等离子体密度增加。W 作为等离子体辐射源的主导作用也得到了证实。对于中 Z 杂质和 W 来说,δ 变化引起的密度变化可以忽略不计,随着同位素质量的增加,它们的密度也会增加,不过这种影响往往会被 ELM 频率对杂质水平的主导作用所掩盖。基于螺栓测量法的杂质辐射损耗和 W 强度受电子密度变化的影响,并且在 Te 曲线保持不变的情况下具有良好的相关性。
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Investigation of triangularity impact on impurity content in JET-ILW H, D, T, and DT plasmas
The work presents the recent outcome of the research on Joint European Torus with ITER-like wall (JET-ILW) concerning Be, mid-Z (Ni, Cu, Fe), and high-Z (W) impurities for a selection of Neutral Beam Injection-heated, ELMy H-mode pulses using visible and vacuum–ultraviolet spectroscopy together with bolometry diagnostic. The investigation is focused on the evaluation of the plasma triangularity (δ) impact on the impurity radiation in hydrogen (H), deuterium (D), tritium (T), and deuterium–tritium (DT) plasmas for pulses described in [P. A. Schneider, Nucl. Fusion 63, 112010 (2023)]. The variations of δ were in the range of 0.21–0.31 for different time windows with low magnetic toroidal field (Bt=1.7 T) and plasma current (Ip=1.4 MA) in the corner–corner configuration, that is with both the inner and outer strike points on the horizontal W-coated divertor target plates. The results confirm the rise in Be flux with plasma isotope and lower δ leading to higher plasma density close to the plasma wall. The dominant role of W as a source of plasma radiation has also been confirmed. For mid-Z impurities and W, the variations in their densities due to δ change are negligible and the rise in their densities is observed with higher isotope mass, although this effect is often masked by the dominant role of ELM frequency on the impurity level. The impurity radiation losses based on bolometry together with the W intensity are ruled by the changes in the electron density and are well correlated when the Te profiles are conserved.
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