期刊论文

Experimental investigation of lower hybrid current drive induced plasma rotation on the experimental advanced superconducting tokamak

Xiang Dong;Lyu Bo

中文

物理学报

1000-3290

2020

69

5

126-132

10.7498/aps.69.20191716

National Key Research and Development Plan of China [2017YFE0301300]; Distinguished Young Scholar of Anhui Province, China [1908085J01]; Key Program of Research and Development of Hefei Science Center Chinese Academy of Sciences [2017HSC-KPRD002]; Instrument Developing Project of the Chinese Academy of Sciences [YJKYYQ20180013]

本校为第一且通讯机构

旋转和旋转剪切能抑制磁流体不稳定性和增强等离子体约束.低杂波电流驱动作为未来聚变堆上可能的旋转驱动手段,探索低杂波在现有托卡马克装置上驱动等离子体旋转的驱动机制,可以为未来的聚变堆上旋转预测提供重要参考.在东方超环托卡马克装置上,早期发现了2.45 GHz的低杂波能有效驱动等离子体旋转的现象,认为是边界旋转的改变导致芯部旋转的同电流方向的增加造成的.更高频率下4.6 GHz低杂波电流驱动可以更有效地驱动同电流方向的等离子体旋转.本论文分析在欧姆背景等离子体下,不同功率的低杂波对等离子体环向旋转的影响,研究安全因子剖面变化对环向旋转的关系,利用功率调制获得了低杂波驱动旋转...

Rotation and its shear can reduce the magnetohydrodynamic instabilities and enhance the confinement. The LHCD has been proposed as a possible means of rotation driving on a future fusion reactor. Exploring the mechanisms of LHCD rotation driving on the current tokamaks can provide important reference for future reactors. On EAST, it was previously shown that 2.45 GHz LHCD can drive plasma toroidal rotation and the change of edge plasma rotation leads the co-current core rotation to increase. At higher frequency, 4.6 GHz lower hybrid wave can mo...