2023
DOI: 10.1088/1741-4326/aceb07
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Extension of ELM suppression window using n = 4 RMPs in EAST

Abstract: The q95 window for Type-I Edge Localized Modes (ELMs) suppression using n=4 even parity Resonant Magnetic Perturbations (RMPs) has been significantly expanded to a range from 3.9 to 4.8 in EAST, which is demonstrated to be reliable and repeatable over the last two years. This window is significantly wider than the previous one achieved using n=4 odd parity RMPs, which is around q95=3.7±0.1. Here, n represents the toroidal mode number of the applied RMPs and q95 is the safety factor at 95% of the normalized po… Show more

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Cited by 5 publications
(3 citation statements)
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“…As shown in figure 2(a), simulation results demonstrate that the stochastic layer width varies with odd and even RMP configurations, exhibiting peaks during q 95 increases. Applying the MARS-F code to consider plasma response effects reveals peaks in the stochastic layer width, showing qualitative agreement with the existence of q 95 windows in experiments [10,37,39], as shown in figure 2(b). These results establish a strong link between simulated stochastic layer widths and ELM suppression windows, highlighting the crucial role of plasma response in understanding the ELM suppression mechanism.…”
Section: Modeling Of Heat Flux Spreading Effect By Varying Q 95supporting
confidence: 81%
See 1 more Smart Citation
“…As shown in figure 2(a), simulation results demonstrate that the stochastic layer width varies with odd and even RMP configurations, exhibiting peaks during q 95 increases. Applying the MARS-F code to consider plasma response effects reveals peaks in the stochastic layer width, showing qualitative agreement with the existence of q 95 windows in experiments [10,37,39], as shown in figure 2(b). These results establish a strong link between simulated stochastic layer widths and ELM suppression windows, highlighting the crucial role of plasma response in understanding the ELM suppression mechanism.…”
Section: Modeling Of Heat Flux Spreading Effect By Varying Q 95supporting
confidence: 81%
“…The MARS-F code [36] is one of the most widely used codes for modeling the linear plasma responses to the applied RMP field. In EAST experiments with various RMP applications, the modeling with the plasma response calculated by MARS-F can well predict the ELM control windows as discussed in [10,37], as well as the distribution of divertor heat and particle fluxes on the divertor target [29,30]. The MARS-F code is also used in this work.…”
Section: Modeling Of Heat Flux Spreading Effect By Varying Q 95mentioning
confidence: 99%
“…In the range of q 95 4.8-6.2 is also where AUG first discovered strong ELM mitigation [85]. Note very recent EAST data, taken after the compilation of this database, has extended n = 4 RMP-ELM suppression to q 95 ≈3 [86] and q 95 >4, with different q 95 gap sensitivity observed [87]. Also interesting is the generic accessibility of a window between q 95 = 3-4.…”
Section: Rmp Coil Configurations and Safety Factor Windowsmentioning
confidence: 89%