Modeling of the impact of neon seeding on the detachment in EAST by SOLPS-ITER

Author:

Wang Rong12ORCID,Yang Zhongshi2ORCID,Li Kedong2ORCID,Xu Guosheng2ORCID,Jia Guozhang2ORCID,Niu Guojian2ORCID,Nian Feifei12ORCID,He Tao12,Meng Lingyi2ORCID,Lin Xin2ORCID,Luo Guang-Nan12ORCID,Wang Liang2

Affiliation:

1. University of Science and Technology of China, Hefei 230026, China

2. Institute of Plasma Physics, HFIPS, Chinese Academy of Sciences, Hefei 230031, China

Abstract

In the EAST radiative divertor experiments, stable detachment and divertor protection have been achieved with mixed impurity gas seeding. Experiments indicate that neon (Ne) is an appropriate external impurity for plasma detachment in EAST. In this work, the physical mechanism of plasma detachment with Ne seeding in EAST is studied by using the SOLPS-ITER code package. The electron temperature Tet on the upper outer divertor target decreases to below 10 eV with Ne seeding, which is mainly due to the power loss and upstream power drop caused by the impurity radiation. For Tet < 10 eV, the significant drop of the poloidal saturation ion current js,p occurs around the upper outer strike point. The simulation results show that the js,p drop is mainly driven by the rise of the momentum loss and the upstream pressure loss. The increase in the momentum loss is mainly caused by the plasma–neutral interactions in the region from the X-point to the upper outer divertor target. The upstream pressure loss around the X-point is related to the decrease in the upstream electron temperature Teu, which originates from the increased radiation loss with Ne seeding.

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

the HFIPS Direction's Fund

Publisher

AIP Publishing

Subject

Condensed Matter Physics

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