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Observation of a beam-driven low-frequency mode in Heliotron J

机译:HelioTron J中光束驱动的低频模式观察

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摘要

A low-frequency electromagnetic mode (LF-mode) has been observed in a stellarator/ heliotron device, Heliotron J. The LF-mode is observed only in neutral beam heated plasmas with a co-current, which increases the rotational transform. The observed LF-mode peaks at rho = 0.86-0.91, where rho = r/a is the normalized minor radius. The LF-mode propagates in the ion diamagnetic drift direction, and the poloidal mode number is m similar to 6-8, determined with a combination of Mirnov coil arrays and 2D fast camera measurement. A high m number induces significant Doppler shift from the background ion flow. The frequency is corrected with both E x B rotation and the ion diamagnetic flow. The corrected frequency is almost consistent with the beta-induced Alfven eigenmode gap evaluated with the STELLGAP code, although very close to the accumulation point. The mode could also be a global Alfven eigenmode.
机译:在螺旋桨/ Heliotron装置中,Heliotron J.只观察到低频电磁模式(LF-MODE),LF-MODE仅在中性光束加热等离子体中观察到具有电流的中性光束加热等离子体,这增加了旋转变换。在Rho = 0.86-0.91处观察到的LF模式峰,其中Rho = R / A是归一化的小半径。 LF模式在离子偏心漂移方向上传播,并且球形模式数与6-8类似,用MiRNOV线圈阵列和2D快速相机测量的组合确定。高M号引起背景离子流量的显着多普勒偏移。通过E X B旋转和离子抗磁流校正频率。校正频率几乎一致地与用Stellgap码评估的Beta诱导的Alfven EigenMode间隙,尽管非常接近累积点。该模式也可以是全球Alfven EigenMode。

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  • 来源
    《Nuclear fusion》 |2019年第5期|056001.1-056001.13|共13页
  • 作者

    Zang L. G.; Yamamoto S.; Spong D. A.; Nagasaki K.; Ohshima S.; Kobayashi S.; Minami T.; Lu X. X.; Nishino N.; Kado S.; Adulsiriswad P.; Okada H.; Kenmochi N.; Inagaki S.; Zhu J. X.; Weir G. M.; Mizuuchi T.; Konoshima S.; Ishizawa A.; Yu D. L.; Shi Z. B.; Liu Yi; Yan L. W.; Li J. Q.; Yang Q. W.; Xu M.; Duan X. R.; Liu Yong;

  • 作者单位

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Oak Ridge Natl Lab Oak Ridge TN USA;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Kyoto Univ Grad Sch Energy Sci Uji Kyoto Japan;

    Hiroshima Univ Grad Sch Engn Higashihiroshima Japan;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Kyoto Univ Grad Sch Energy Sci Uji Kyoto Japan;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Univ Tokyo Grad Sch Frontier Sci Kashiwa Chiba Japan;

    Kyushu Univ Res Inst Appl Mech Kyushu Japan;

    Zhejiang Univ Hangzhou Zhejiang Peoples R China;

    Max Planck Inst Plasma Phys Greifswald Germany;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Kyoto Univ Inst Adv Energy Uji Kyoto Japan;

    Kyoto Univ Grad Sch Energy Sci Uji Kyoto Japan;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

    Southwestern Inst Phys Chengdu Sichuan Peoples R China;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Heliotron J; STELLGAP; stellarator/heliotron; gas puff imaging; BAE; GAE;

    机译:HelioTron J;Stellgap;螺旋桨/ Heliotron;气体浮气成像;BAE;GAE;
  • 入库时间 2022-08-18 21:19:02

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