摘要
本文采用数值方法求解Grad-Shafranov方程反演EAST典型长脉冲放电实验(炮号33068)的平衡位形和磁场分布,进而结合粒子在托卡马克电磁场中的运动方程,模拟氘离子在负径向电场存在时的运动轨迹,并统计不同负径向电场下的氘离子俘获率。结果表明:随负径向电场的增大,氘离子轨迹由扩张通行轨迹向外翻香蕉轨迹再向内翻香蕉轨迹,最后向压缩通行轨迹演变;氘离子俘获率随负径向电场的增大而减小,氘离子初始速度越小,其变化越大。
The equilibrium configuration and magnetic distribution were achieved by numerically solving Grad-Shafranov equation in the typical long-pulse discharge(shot 33068)on EAST in this paper.Considering the motion equation of particles in magnetic field,deuterium ion orbit was simulated when negative radial electric field existed,and also,the deuterium ion capture rate was statistically calculated.The results indicate that the deuterium ion orbit converts from expansion passing particle orbit to expansion trapped particle orbit firstly,and then,to compression trapped particle orbit,and further,to compression passing particle orbit when the negative radial electric field becomes large.The deuterium ion capture rate decreases with the increase of negative radial electric field,and the smaller the initial velocity of deuterium ion,the greater the change.
作者
钟翊君
龚学余
黄千红
谭清懿
龚蕾
杜丹
ZHONG Yijun;GONG Xueyu;HUANG Qianhong;TAN Qingyi;GONG Lei;DU Dan(University of South China,Hengyang 421001,China;Fuqing Nuclear Power Plant,Fuqing 350300,China)
出处
《原子能科学技术》
EI
CAS
CSCD
北大核心
2019年第11期2129-2134,共6页
Atomic Energy Science and Technology
基金
国际热核聚变实验堆计划专项资助项目(2018YEE0303102,2018YEE0309101)
衡阳市科技局资助项目(2018KJ126)
国家自然科学基金资助项目(11347002,11375085)
衡阳市重点实验室资助项目(2018KJ108)
湖南省核聚变国际科技创新合作基地资助项目(2018WK4009)
关键词
平衡位形
离子轨迹
俘获率
equilibrium configuration
ion orbit
capture rate
