Comparison of transport coefficients before and after density pump-out induced by resonant magnetic perturbation using a BOUT++ six-field model on the EAST tokamak

• Published in: Plasma science & technology Vol. 26; no. 6; pp. 65103 - 65111
• Main Authors: DENG, Chengcheng, LIU, Zixi, XIA, Tianyang, LIU, Yanjun, LI, Pengcheng, LONG, Feifei, GAO, Xiang, WANG, Shouxin, LI, Guoqiang, LIU, Haiqing, ZANG, Qing, LI, Jiuying, YANG, Kangning, WU, Mingfu, YIN, Xiaoyu, LI, Hong, XIE, Jinlin, LAN, Tao, MAO, Wenzhe, LIU, Adi, ZHOU, Chu, DING, Weixing, ZHUANG, Ge, LIU, Wandong, the EAST Team
• Format: Journal Article
• Language: English
• Published: Plasma Science and Technology 01.06.2024
• Subjects: BOUT; resonant magnetic perturbation (RMP); transport coefficients
• ISSN: 1009-0630
• DOI: 10.1088/2058-6272/ad273c

Many experiments have demonstrated that resonant magnetic perturbation (RMP) can affect the turbulent transport at the edge of the tokamak. Through the Experimental Advanced Superconducting Tokamak (EAST) density modulation experiment, the particle transport coefficients were calculated using the experimental data, and the result shows that the particle transport coefficients increase with RMP. In this study, the six-field two-fluid model in BOUT++ is used to simulate the transport before and after density pump-out induced by RMP, respectively referred as the case without RMP and the case with RMP. In the linear simulations, the instabilities generally decreases for cases with RMP. In the nonlinear simulation, ELM only appears in the case without RMP. Additionally, the particle transport coefficient was analyzed, and the result shows that the particle transport coefficient becomes larger for the case with RMP, which is consistent with the experimental conclusion. Moreover, its magnitude is comparable to the results calculated from experimental data.