磁压缩系统中热脱附杂质粒子研究

罗先文; 魏懿

doi:10.11884/HPLPB201729.160544

强激光与粒子束

磁压缩系统中热脱附杂质粒子研究

罗先文, 魏懿. 2017: 磁压缩系统中热脱附杂质粒子研究, 强激光与粒子束, 29(5): 88-92. doi: 10.11884/HPLPB201729.160544

引用本文:

罗先文, 魏懿. 2017: 磁压缩系统中热脱附杂质粒子研究, 强激光与粒子束, 29(5): 88-92. doi: 10.11884/HPLPB201729.160544

Luo Xianwen, Wei Yi. 2017: Study of impurities generation via thermal desorption in magnetic compression system, High Power Lase and Particle Beams, 29(5): 88-92. doi: 10.11884/HPLPB201729.160544

Citation:

Luo Xianwen, Wei Yi. 2017: Study of impurities generation via thermal desorption in magnetic compression system, High Power Lase and Particle Beams, 29(5): 88-92. doi: 10.11884/HPLPB201729.160544

磁压缩系统中热脱附杂质粒子研究

罗先文,
魏懿

中国工程物理研究院银河596科技园脉冲功率科学与技术重点实验室,成都,610200
中国工程物理研究院流体物理研究所,四川绵阳,621999

Study of impurities generation via thermal desorption in magnetic compression system

Luo Xianwen,
Wei Yi

摘要: 磁压缩系统为俄罗斯实验物理研究院提出的核聚变方案.磁压缩系统腔室中杂质粒子可能来源于热脱附、等离子体刮削器壁等途径.利用ANSYS工具模拟5 MA脉冲电流流过腔室,并给出电极温度的二维分布图,结合研究小尺寸铜样品上杂质的解吸附来分析磁压缩系统腔室中热脱附过程产生的杂质粒子.通过测量3 keV的Ar+离子入射到Cu(110),Cu(111)样品表面的飞行时间谱,分析样品表面吸附的杂质种类,以及样品表面杂质含量随温度的变化关系.研究表明杂质粒子含量跟电极温度有关联性,且跟电极材料表面结构相关.
- 磁压缩系统 /
- 核聚变 /
- 脉冲功率 /
- 杂质 /
- 飞行时间谱
Abstract: The magnetic compression system (MAGO) proposed by VNIIEF is a new concept of nuclear fusion.The impurities in magnetic compression system may come from thermal desorption process, and wall materials washout by plasma.In this paper, combined with the 2-D temperature distribution of anodic electrode for 5 MA pulsed current flowing through gas pondermotor unit, the impurities generated from thermal desorption process in MAGO chamber were analyzed, consulted to the impurities desorption of copper sample.The TOF spectrum of 3 keV Ar+ scattering from Cu(110), Cu(111) surfaces were measured, and the impurity elements on copper surface were analyzed.According to the results, impurities desorption depends on the temperature and the surface structure of anodic electrode.

计量

文章访问数: 360
HTML全文浏览数: 270
PDF下载数: 5
施引文献: 0

磁压缩系统中热脱附杂质粒子研究

罗先文,
魏懿

中国工程物理研究院银河596科技园脉冲功率科学与技术重点实验室,成都,610200
中国工程物理研究院流体物理研究所,四川绵阳,621999

关键词:

摘要: 磁压缩系统为俄罗斯实验物理研究院提出的核聚变方案.磁压缩系统腔室中杂质粒子可能来源于热脱附、等离子体刮削器壁等途径.利用ANSYS工具模拟5 MA脉冲电流流过腔室,并给出电极温度的二维分布图,结合研究小尺寸铜样品上杂质的解吸附来分析磁压缩系统腔室中热脱附过程产生的杂质粒子.通过测量3 keV的Ar+离子入射到Cu(110),Cu(111)样品表面的飞行时间谱,分析样品表面吸附的杂质种类,以及样品表面杂质含量随温度的变化关系.研究表明杂质粒子含量跟电极温度有关联性,且跟电极材料表面结构相关.

English Abstract

Study of impurities generation via thermal desorption in magnetic compression system

Luo Xianwen,
Wei Yi

中国工程物理研究院银河596科技园脉冲功率科学与技术重点实验室,成都,610200
中国工程物理研究院流体物理研究所,四川绵阳,621999

Keywords:

Abstract: The magnetic compression system (MAGO) proposed by VNIIEF is a new concept of nuclear fusion.The impurities in magnetic compression system may come from thermal desorption process, and wall materials washout by plasma.In this paper, combined with the 2-D temperature distribution of anodic electrode for 5 MA pulsed current flowing through gas pondermotor unit, the impurities generated from thermal desorption process in MAGO chamber were analyzed, consulted to the impurities desorption of copper sample.The TOF spectrum of 3 keV Ar+ scattering from Cu(110), Cu(111) surfaces were measured, and the impurity elements on copper surface were analyzed.According to the results, impurities desorption depends on the temperature and the surface structure of anodic electrode.

全文HTML

参考文献 (0)

下载: 全尺寸图片幻灯片

返回文章

用微信扫码二维码

分享至好友和朋友圈

磁压缩系统中热脱附杂质粒子研究

Study of impurities generation via thermal desorption in magnetic compression system

计量

出版历程

磁压缩系统中热脱附杂质粒子研究

English Abstract

Study of impurities generation via thermal desorption in magnetic compression system

全文HTML

目录