Speaker
Dr
Xinjun Zhang
(Institute of Plasma Physics Chinese Academy of Sciences (ASIPP))
Description
The paper summarizes the recent experiments performed with Ion Cyclotron Resonance Heating(ICRH) on EAST. Heating and confinement studies using the Hydrogen Minority Heating scheme have been investigated in Ohmic target plasma and in combination with Low Hybrid waves. Energy Confinement follows Scaling Law. The results show a typical L-mode behavior, i.e. a power dependent confinement degradation. L-mode data agree with ITER89P scaling. The ICRF heating efficiency is ~35%, rather low on EAST. One of the importance challenges for EAST is how to couple higher power into the core plasma. The experimental results show that local gas injection and reducing the k|| improves the coupling efficiency directly. Particular efforts have been devoted to investigations of the interaction of ICRF waves with fast ions injected by Neutral beams. Third harmonic ion cyclotron resonance heating of D-beam ions have been achieved for the first time on EAST.
| Country or International Organization | China |
|---|---|
| Paper Number | EX/P7-8 |
Primary author
Dr
Xinjun Zhang
(Institute of Plasma Physics Chinese Academy of Sciences (ASIPP))
Co-authors
Dr
Baonian Wan
(Institute of Plasma Physics, Chinese Academy of Sciences)
Ms
C.M qin
(Institute of Plasma Physics Chinese Academy of Sciences)
Dr
Hiroshi Kasahara
(National Institute for Fusion Science)
Prof.
Jean-Marie Noterdaeme
(Max Planck Institute for Plasma Physics)
Prof.
Jiangang Li
(Institute of Plasma Physics, Chinese Academy of Sciences)
Dr
Joel Hosea
(PPPL)
Dr
Lei Wang
(ASIPP)
Dr
Liqun Hu
(Institute of Plasma Physcis, Chinese Academy of Sciences)
Mr
Shuai Yuan
(ASIPP)
Mr
Songqing Ju
(ASIPP)
Stephen Wukitch
(MIT PSFC)
Dr
Tayor Gary
(PPPL)
Tetsuo Seki
(National Institute for Fusion Science)
Prof.
Xianzu Gong
(Insititute of Plasma Physics, Chinese Academy Sciences)
Mrs
Yan Chen
(ASIPP)
Prof.
Yanping Zhao
(ASIPP)
Dr
Yijun Lin
(MIT Plasma Science and Fusion Center)
Prof.
Yuntao Song
(ASIPP)
Prof.
Yuzhou Mao
(ASIPP)
