摘要
A broadband(BB)mode is observed by collective Thomson scattering diagnostics in repeatable shots of EAST and analyzed for the first time.This BB mode usually grows during L–H transitions,featuring a BB quasi-coherent mode with increasing frequency.During H-mode operations,it is characterized by steady-state BB in the high-frequency range(f~200–2000 k Hz),at the electron scale(k_(θ)ρ_(s)=1–2),mainly driven by the density gradient,and is sensitive to the value ofηein the region of interest(ρ=0.4–0.8),wherehe=(R/L_(Te))/(R/L_(ne))is the ratio of the normalized electron temperature gradient and density gradient,and the regionρ=0.4–0.8 usually has a relatively low collisionality(v_(eff)<5).The frequency of BB is found to be dependent on the electron temperature and density gradient,which is a typical feature of electron-driven turbulence.A negative correlation between the energy confinement and the intensity of the BB turbulence during H-mode has been found,which indicates a strong electron thermal transport induced by the BB turbulence.The BB significantly decreases the electron temperature and causes flatter electron temperature profiles in the region of interest(ρ=0.4–0.8),thus makingηedecrease and the BB destabilize further.These characteristics of BB are related to the theoretical density gradient-driven trapped electron mode.It should be noted that this mode is not observed by other diagnostics in EAST,and shows very different features to the coherent modes in the edge.
作者
陈斐
李亚东
王晓洁
吴国将
李磐
耿靖森
汪宇豪
孙鹏军
李二众
周天富
赵海林
臧庆
王守信
刘海庆
金仡飞
吕波
裴千镐
李建刚
Fei CHEN;Yadong LI;Xiaojie WANG;Guojiang WU;Pan LI;Jingsen GENG;Yuhao WANG;Pengjun SUN;Erzhong LI;Tianfu ZHOU;Hailin ZHAO;Qing ZANG;Shouxin WANG;Haiqing LIU;Yifei JIN;Bo LYU;Cheonho BAE;Jiangang LI(Institute of Plasma Physics,Hefei Institutes of Physical Science,Chinese Academy of Sciences,Hefei 230031,People's Republic of China;University of Science and Technology of China,Hefei 230026,People's Republic of China)
基金
supported by National Natural Science Foundation of China(No.11875286)
the National Key R&D Program of China(No.2019YFE03010002)
CAS President’s International Fellowship Initiative(No.2022VMB0007)。