Enviar artigo por via de e-mail Analysis of Poloidal Asymmetric Density Behaviors in SOL Induced by 4.6-GHz Lower Hybrid Launcher Power in EAST
- Autores: Li Y.C.1,2, Ding B.J.1, Li M.H.1, Wang M.1, Liu L.1, Wang X.J.1, Xu H.D.1, Shan J.F.1, Liu F.K.1
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Afiliações:
- Institute of Plasma Physics
- University of Science and Technology of China
- Edição: Volume 44, Nº 2 (2018)
- Páginas: 171-179
- Seção: Tokamaks
- URL: https://journal-vniispk.ru/1063-780X/article/view/186669
- DOI: https://doi.org/10.1134/S1063780X18020095
- ID: 186669
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Resumo
On the experimental advanced superconducting tokamak (EAST), a series of striations, including a few strong emissivity striations and several low emissivity striations, were observed in front of the 4.6-GHz lower hybrid (LH) launcher with the visible video camera for the LH power discharge. These striations indicate that LH may create significant poloidal scrape-off layer (SOL) density profile asymmetries in front of the LH launcher. These poloidal asymmetric density behaviors are further confirmed with the edge density measured by two Langmuir probes installed at the top and bottom of the LH launcher. The measured density depends on LH power injection and magnetic field direction. A 2D diffusive convective model was used to study the mechanisms of the observed striations and poloidal asymmetric density. The simulation results qualitatively match with the measured density, indicating these poloidal asymmetric effects are ascribed to the LHW-induced ELH × Bt drift.
Sobre autores
Y. Li
Institute of Plasma Physics; University of Science and Technology of China
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031; Hefei, 230026
B. Ding
Institute of Plasma Physics
Autor responsável pela correspondência
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
M. Li
Institute of Plasma Physics
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
M. Wang
Institute of Plasma Physics
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
L. Liu
Institute of Plasma Physics
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
X. Wang
Institute of Plasma Physics
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
H. Xu
Institute of Plasma Physics
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
J. Shan
Institute of Plasma Physics
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
F. Liu
Institute of Plasma Physics
Email: bjding@ipp.cas.cn
República Popular da China, Hefei, 230031
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