Study on the turbulence transition in the pedestal of high-density H-mode plasmas in EAST

Study on the turbulence transition in the pedestal of high-density H-mode plasmas in EAST

In the Experimental Advanced Superconducting Tokamak (EAST), a transition from electromagnetic to electrostatic turbulence is observed in the pedestal region as plasma density ramps up. This transition is manifested by the suppression of magnetic fluctuations and the presence of broadband electrosta...

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Main Authors: You Li, Ning Yan, Guosheng Xu, Ziqiang Zhou, Ganjun Zhang, Shaocheng Liu, Jilei Hou, Qingquan Yang, Kedong Li, Wenxiang Shi, Guangle Lin, Lin Yu, Yifeng Wang, Xiang Jian, Genfan Ding, Ran Chen, Yuqi Xu, Rui Ding, Jingsen Geng, Wenxue Fu, Qian Long, Panjun Tang, Yufei Zhang, Ang Ti, Haiqing Liu, Liang Wang, Qing Zang, Jinping Qian, the EAST Team
Format: Article
Language:English
Published: IOP Publishing 2025-01-01
Series:Nuclear Fusion
Subjects:
turbulence transition
H-mode
high-density
confinement
pedestal
scrape-off layer parameters
Online Access:https://doi.org/10.1088/1741-4326/adf34b
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Summary:In the Experimental Advanced Superconducting Tokamak (EAST), a transition from electromagnetic to electrostatic turbulence is observed in the pedestal region as plasma density ramps up. This transition is manifested by the suppression of magnetic fluctuations and the presence of broadband electrostatic turbulence. The frequency domain of the electrostatic turbulence is typically beyond 300 kHz. It leads to a rapid build-up of density gradient and a sharp degradation of energy confinement. By reducing the gas puffing rate, a prolonged intermediate transition phase is observed, and the confinement improved with increasing density in this phase. The emergence of broad electrostatic turbulence is associated with the enhanced turbulence control parameter α _t , together with a weaken edge radial electric field. Furthermore, the impact of the turbulence transition to scrape-off layer (SOL) transport is evaluated. Measurements suggested that radial particle flux and intermittent structures are strengthened after the transition. Moreover, the profiles in the far SOL are broaden with increase of α _t . The properties of the magnetic fluctuations are consistent with the nature of the magnetic coherent mode previously observed in EAST, while the broad electrostatic turbulence is proposed to be an ion temperature gradient mode by the Gyrokinetic Electromagnetic Numerical Experiment simulation. It is clarified that the energy confinement degradation in high-density regimes is primarily driven by the broadband turbulence rather than divertor detachment. These findings advance our understanding of high-density H-mode plasmas and provides additional insights into the interplay between edge turbulence and global confinement properties.
ISSN:0029-5515

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