Realization of T e0 > 10 keV long pulse operation over 100 s on EAST

Realization of T e0 > 10 keV long pulse operation over 100 s on EAST

In 2021, EAST realized a steady-state long pulse with a duration over 100 s and a core electron temperature over 10 keV. This is an integrated operation that resolves several key issues, including active control of wall conditioning, long-lasting fully noninductive current and divertor heat/particle...

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Veröffentlicht in:Plasma science & technology 2023-02, Vol.25 (2), p.22001
Hauptverfasser: GONG, Xianzu, XU, Liqing, QIAN, Jinping, HUANG, Juan, DING, Rui, GAROFALO, A M, EKEDAHL, Annika, ZENG, Long, LI, Erzhong, ZHANG, Bin, LIN, Shiyao, SHEN, Biao, WANG, Mao, XU, Handong, ZHANG, Xinjun, LI, Miaohui, ZUO, Guizhong, ZANG, Qing, LIU, Haiqing, LYU, Bo, WANG, Liang, SUN, Youwen, XU, Guosheng, HU, Jiansheng, YAO, Damao, WU, Yu, HU, Liqun, XIAO, Bingjia, XIANG, Nong, LU, Kun, SONG, Yuntao, WAN, Baonian, LI, Jiangang
Format: Artikel
Sprache:eng
Schlagworte:
EAST tokamak
Engineering Sciences
high
integrated operation scenario
Physics
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Beschreibung
Zusammenfassung:In 2021, EAST realized a steady-state long pulse with a duration over 100 s and a core electron temperature over 10 keV. This is an integrated operation that resolves several key issues, including active control of wall conditioning, long-lasting fully noninductive current and divertor heat/particle flux. The fully noninductive current is driven by pure radio frequency (RF) waves with a lower hybrid current drive power of 2.5 MW and electron cyclotron resonance heating of 1.4 MW. This is an excellent experimental platform on the timescale of hundreds of seconds for studying multiscale instabilities, electron-dominant transport and particle recycling (plasma-wall interactions) under weak collisionality.
ISSN:1009-0630
2058-6272
DOI:10.1088/2058-6272/ac9cc6