Suppression of tungsten accumulation during ELMy H-mode by lower hybrid wave heating in the EAST tokamak
2017; Elsevier BV; Volume: 12; Linguagem: Inglês
10.1016/j.nme.2017.01.009
ISSN2352-1791
AutoresLing Zhang, S. Morita, Zong Xu, P.F. Zhang, Qing Zang, Yanmin Duan, Haiqing Liu, Hailin Zhao, F. Ding, T. Ohishi, W. Gao, J. Huang, X.D. Yang, Y.J. Chen, Zhenwei Wu, Ping Xu, B. Ding, C. D. Hu, Xianzu Gong, Jiale Chen, Liqun Hu,
Tópico(s)Particle accelerators and beam dynamics
ResumoEAST tokamak has been equipped with upper tungsten divertor since 2014. The tungsten accumulation has been often observed in NBI-heated H-mode discharges suggesting deleterious tungsten confinement in the plasma core. It causes not only H-L back transition but also plasma disruption in several discharges. Suppression of the tungsten accumulation is therefore the most important issue in EAST to achieve a long pulse H-mode discharge. In order to study the tungsten behavior in the long pulse discharge, tungsten spectra have been measured at 20–140 Å. The tungsten density, nw, is evaluated from the intensity of tungsten unresolved transition array (W-UTA) in a wavelength range of 45–70 Å which is composed of several ionization stages of tungsten, e.g. W27+-W45+ at Te0∼2.5 keV). It is found that the tungsten accumulation can be suppressed when the 4.6 GHz LHW with PLHW∼0.8 MW is superimposed on the NBI phase (PNBI = 1.9 MW). During the superimposed phase the ELM frequency, fELM, increases from ∼30 Hz to ∼60 Hz and the tungsten density is halved compared to the NBI-heated discharge. The H-mode discharge can be thus steadily sustained for longer period. It is found that the nw is a large function of the ratio of LHW power to the total injection power, PLHW/(PLHW+PNBI), and the nw can be reduced, at least, in an order of magnitude smaller than that in NBI-heated discharges at PLHW/(PLHW+PNBI) ≥ 0.8. The result strongly suggests a possible way toward the steady H-mode discharge.
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