Multi-pellet injection into the NBI-heated phase of TJ-II plasmas

Nuclear Fusion Pub Date : 2024-04-18 DOI:10.1088/1741-4326/ad4047

K. McCarthy, I. García-Cortés, Arturo Alonso, Ana Arias-Camisón, E. Ascasíbar, A. Baciero, A. Cappa, Ricardo Carrasco, O. Chmyga, Teresa Estrada, Raul García, J. Hernández Sánchez, Francisco Javier Hernanz, O. Kozachok, Belén López-Miranda, F. Medina, Daniel Medina Roque, B. V. Van Milligen, Miguel Navarro, M. Ochando, J. D. de Pablos, N. Panadero, Ignacio Pastor, Jaime de la Riva Villen, Ma. Carmen Rodriguez Fernandez, D. Tafalla, V. Tribaldos

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Abstract

A pellet-induced enhanced confinement (PiEC) phase, with general characteristics similar to those reported for the stellarator W7-X, is observed after single pellet injection (>1019 H atoms) into the neutral beam injection heated phase of plasmas in the mid-sized heliac-type stellarator TJ-II. In addition to a step-like increase in density, plasma diamagnetic energy content rises significantly with respect to that of reference discharges, energy confinement time is similarly enhanced when compared to International Stellarator Scaling law predictions (H. Yamada et al., Nucl. Fusion 45 (2005) 1684) renormalized for TJ-II, and the triple product, ne · Ti · E, exhibits a clear bifurcation towards an improved confinement branch when compared to the branch product predicted by the same law. In this work, multiple pellets are injected in series into NBI-heated plasmas in the TJ-II and post-injection plasma performance is reported and discussed. For instance, a charge-exchange recombination spectroscopy diagnostic reveals significantly increased core ion temperatures after pellet injection compared to temperatures achieved in comparable reference plasmas, this pointing to increased ion energy content and improved ion energy confinement during a PiEC phase. It is also found that enhanced performance is independent of whether co- or counter-NBI heating beam is employed. Finally, record stored diamagnetic energy content and plasma beta values are achieved when the largest available pellets are employed. The results indicate that pellet injections extend the operational regime well beyond limits previously achieved in TJ-II without pellets.

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向 TJ-II 等离子体的 NBI 加热相注入多小行星

在向中型日光型恒星器TJ-II中的等离子体的中性束注入加热阶段注入单个颗粒（>1019个H原子）后，观测到了颗粒诱导增强约束（PiEC）阶段，其总体特征与恒星器W7-X的报道相似。与国际恒星器缩放定律的预测相比，除了密度的阶梯式增加外，等离子体的二磁能量含量也显著增加，能量约束时间也同样增加（H. Yamada 等人，Nucl.与同一定律预测的分支产物相比，三重产物 ne - Ti - E 显示出明显的分叉，趋向于改进的禁锢分支。在这项工作中，将多个颗粒串联注入 TJ-II 中的 NBI 加热等离子体，并报告和讨论了注入后的等离子体性能。例如，电荷交换重组光谱诊断显示，与可比参考等离子体中达到的温度相比，注入颗粒后核心离子温度显著提高，这表明在 PiEC 阶段离子能量含量增加，离子能量限制得到改善。研究还发现，性能的提高与采用共 NBI 还是反 NBI 加热束无关。最后，当采用最大的可用颗粒时，存储的二磁能量含量和等离子体贝塔值都达到了创纪录的水平。结果表明，颗粒注入扩展了运行机制，远远超出了以前在没有颗粒的情况下在 TJ-II 中达到的极限。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Nuclear Fusion

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