Achievement of 1000 s plasma generation of RF source for neutral beam injector

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英文篇名：Achievement of 1000 s plasma generation of RF source for neutral beam injector 作者：胡纯栋 ; 谢亚红 ; 许永建 ; 蒋才超 ; 韦江龙 ; 顾玉明 ; 崔庆龙 ; 梁立振 ; 陈世勇 ; 谢远来 英文作者：Chundong HU;Yahong XIE;Yongjian XU;Caichao JIANG;Jianglong WEI;Yuming GU;Qinglong CUI;Lizhen LIANG;Shiyong CHEN;Yuanlai XIE;Institute of Plasma Physics,Chinese Academy of Sciences; 英文关键词：neutral beam injector;;RF ion source;;water flow calorimeter;;long pulse 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; 出版日期：2019-02-15 出版单位：Plasma Science and Technology 年：2019 期：v.21 基金：supported by Key Program of Research and Development of Hefei Science Center,CAS (Grant No. 2016HSC-KPRD002);; National Key R&D Program of China (Grant No. 2017YFE300101);; National Natural Science Foundation of China (Grant Nos. 11505224,11505225,11505226,11675215) 语种：英文; 页：DNZK201902002 页数：4 CN：02 ISSN：34-1187/TL 分类号：5-8

摘要

A radio frequency(RF) ion source was developed for neutral beam injector in Institute of Plasma Physics, Chinese Academy of Sciences(ASIPP). A cylindrical driver based RF plasma source was tested and optimized for long pulse operation. Recently, the plasma source achieved 1000 s stable plasma discharge with RF power of 35 k W and source pressure of 0.7 Pa for the first time.The heat loading on each of driver components such as the Faraday shield(FS), RF coil and expansion chamber was measured by the water flow calorimeter system. The experiment results showed that FS is the component with highest heat loading and the heat loading on FS was about 65.8% of total heat loading on source. The details of the long pulse operation of RF plasma source are presented in this paper.
        A radio frequency(RF) ion source was developed for neutral beam injector in Institute of Plasma Physics, Chinese Academy of Sciences(ASIPP). A cylindrical driver based RF plasma source was tested and optimized for long pulse operation. Recently, the plasma source achieved 1000 s stable plasma discharge with RF power of 35 k W and source pressure of 0.7 Pa for the first time.The heat loading on each of driver components such as the Faraday shield(FS), RF coil and expansion chamber was measured by the water flow calorimeter system. The experiment results showed that FS is the component with highest heat loading and the heat loading on FS was about 65.8% of total heat loading on source. The details of the long pulse operation of RF plasma source are presented in this paper.

引文

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