Hefei utility negative ions test equipment with RF source: commissioning and first results

详细信息    查看全文 | 推荐本文 |

英文篇名：Hefei utility negative ions test equipment with RF source: commissioning and first results 作者：韦江龙 ; 谢亚红 ; 将才超 ; 梁立振 ; 崔庆龙 ; 陈世勇 ; 许永建 ; 王艳 ; 张黎 ; 谢远来 ; 胡纯栋 英文作者：Jianglong WEI;Yahong XIE;Caichao JIANG;Lizhen LIANG;Qinglong CUI;Shiyong CHEN;Yongjian XU;Yan WANG;Li ZHANG;Yuanlai XIE;Chundong HU;Institute of Plasma Physics, Chinese Academy of Sciences;University of Science and Technology of China; 英文关键词：neutral beam injection;;negative ion source;;CFETR;;negative ions extraction 中文刊名：DNZK 英文刊名：等离子体科学和技术(英文版) 机构：Institute of Plasma Physics, Chinese Academy of Sciences;University of Science and Technology of China; 出版日期：2018-12-07 出版单位：Plasma Science and Technology 年：2018 期：v.20 基金：supported by the Key Program of Research and Development of Hefei Science Center,CAS(No.2016HSCKPRD002);; National Natural Science Foundation of China(Nos.11505224,11505225,11575240,11675215,11675216) 语种：英文; 页：DNZK201812015 页数：7 CN：12 ISSN：34-1187/TL 分类号：129-135

摘要

In order to study the key technology and physics of RF driven negative ion source for neutral beam injector in China, the Hefei utility negative ions test equipment with RF source was developed at Institute of Plasma Physics, Chinese Academy of Sciences(ASIPP). Its negative ion source can be equipped with single or double RF drivers. There is a plasma expansion chamber with depth of 19 mm and an enhanced filter field. A three electrodes negative ion accelerator was employed to extract and accelerate the negative ions, which are plasma grid,extraction grid and ground grid. And there are several diagnostic tools for the plasma and beam parameters measurement. The characteristics of plasma generation, negative ion production and extraction were studied on the test equipment. The negative ion beam was extracted from the RF driven negative ion source for the first time. The detailed structure and main results are presented in this article.
        In order to study the key technology and physics of RF driven negative ion source for neutral beam injector in China, the Hefei utility negative ions test equipment with RF source was developed at Institute of Plasma Physics, Chinese Academy of Sciences(ASIPP). Its negative ion source can be equipped with single or double RF drivers. There is a plasma expansion chamber with depth of 19 mm and an enhanced filter field. A three electrodes negative ion accelerator was employed to extract and accelerate the negative ions, which are plasma grid,extraction grid and ground grid. And there are several diagnostic tools for the plasma and beam parameters measurement. The characteristics of plasma generation, negative ion production and extraction were studied on the test equipment. The negative ion beam was extracted from the RF driven negative ion source for the first time. The detailed structure and main results are presented in this article.

引文

[1]Wan Y X et al 2017 Nucl.Fusion 57 102009
    [2]Wan B N et al 2014 IEEE Trans.Plasma Sci.42 495
    [3]Song Y T et al 2014 IEEE Trans.Plasma Sci.42 503
    [4]Chan V S et al 2015 Nucl.Fusion 55 023017
    [5]Berkner K H,Pyle R V and Stearns J W 1975 Nucl.Fusion15 249
    [6]Brown I G 2004 The Physics and Technology of Ion Sources2nd edn(Weinheim:Wiley-VCH Press)
    [7]Simonin A et al 2016 New J.Phys.18 125005
    [8]McAdams R et al 2016 New J.Phys.18 125013
    [9]Heinemann B et al 2017 New J.Phys.19 015001
    [10]Hemsworth R S et al 2017 New J.Phys.19 025005
    [11]Cartry G et al 2017 New J.Phys.19 025010
    [12]Tsumori K and Wada M 2017 New J.Phys.19 045002
    [13]Toigo V et al 2017 Nucl.Fusion 57 086027
    [14]Wei J L et al 2018 IEEE Trans.Plasma Sci.46 1149
    [15]Xie Y H et al 2016 Rev.Sci.Instrum.87 02B302
    [16]Xie Y H et al 2017 Fusion Eng.Des.114 72
    [17]Jiang C C et al 2017 Fusion Eng.Des.117 100
    [18]Speth E et al 2006 Nucl.Fusion 46 S220
    [19]Franzen P et al 2007 Nucl.Fusion 47 264
    [20]Fantz U et al 2009 Nucl.Fusion 49 125007
    [21]Kraus W et al 2012 Rev Sci.Instrum.83 02B104
    [22]Hu C D et al 2015 Plasma Sci.Technol.17 817
    [23]Wei J L et al 2016 Plasma Sci.Technol.18 954
    [24]Wei J L et al 2016 Fusion Eng.Des.113 23
    [25]Boeuf J P,Fubiani G and Garrigues L 2016 Plasma Sources Sci.Technol.25 045010
    [26]Franzen P et al 2011 Plasma Phys.Control.Fusion 53115006
    [27]Wünderlich D et al 2016 Plasma Phys.Control.Fusion 58125005
    [28]Bacal M and Wada M 2015 Appl.Phys.Rev.2 021305
    [29]Wimmer C,Schiesko L and Fantz U 2016 Rev.Sci.Instrum.8702B310
    [30]Yoshida M et al 2016 Rev.Sci.Instrum.87 02B144
    [31]Wei J L et al 2017 Fusion Eng.Des.117 93
    [32]Gu Y M et al 2017 Fusion Sci.Technol.72 148
    [33]Wimmer C,Fantz U and NNBI Team 2016 J.Appl.Phys.120073301
    [34]Bacal M et al 2016 Rev.Sci.Instrum.87 02B132
    [35]Kisaki M et al 2014 Rev.Sci.Instrum.85 02B131
    [36]Liang L Z et al 2015 Phys.Scr.90 045603
    [37]Fantz U et al 2006 Nucl.Fusion 46 S297
    [38]Kojima A et al 2011 Nucl.Fusion 51 083049
    [39]Gu Y M et al 2018 Fusion Eng.Des.129 164
    [40]Wünderlich D et al 2013 Rev.Sci.Instrum.84 093102
    [41]Zhu X M et al 2009 J.Phys.D:Appl.Phys.42 025203
    [42]Nakano H et al 2016 J.Instrum.11 C03018
    [43]Jeong S H et al 2016 Fusion Eng.Des.109-111 186