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Review of Divertor Studies in LHD 被引量:5
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作者 T. MOrISAKI S. MASUZAKI +33 位作者 A. KOMOrI N. OHYABU M. KOBAYASHI J. MIYAZAWA M. SHOJI 高翔 K. IDA K. IKEDA O. KANEKO K. KAWAHATA S. KUBO S. MOrITA K. NAGAOKA H. NAKANISHI K. NArIHArA Y. OKA M. OSAKABE B. J. PETErSON S. SAKAKIBArA r. sakamoto T. SHIMOZUMA Y. TAKEIrI K. TANAKA K. TOI, K. TSUMOrI K. Y. WATABABE T. WATArI H. YAMADA I. YAMADA 严龙文 杨青巍 杨愚 Y.YOSHIMUrA M. YOSHINUMA O. MOTOJIMA 《Plasma Science and Technology》 SCIE EI CAS CSCD 2006年第1期14-18,共5页
In the Large Helical Device (LHD), two different divertor configurations, i.e. helical divertor (HD) and local island divertor (LID), are utilized to control the edge plasma. The HD with two X-points is an intri... In the Large Helical Device (LHD), two different divertor configurations, i.e. helical divertor (HD) and local island divertor (LID), are utilized to control the edge plasma. The HD with two X-points is an intrinsic divertor for heliotron devices, accompanied with a relatively thick ergodic layer outside the confinement region. Edge and divertor plasma behavior from low density to high density regimes is presented, referring to the divertor detachment. The effect of the ergodic layer on the edge transport is also discussed. On the other hand, the LID is an advanced divertor concept which realizes a high pumping efficiency by the combination of an externally induced magnetic island and a closed pumping system. Experimental results to confirm the fundamental divertor performance of the LID are presented. 展开更多
关键词 LHD DIVERTOR ergodic layer magnetic island edge plasma
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