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首页> 外文期刊>Nuclear fusion >Improved performance of electron cyclotron resonance heating by perpendicular injection in the Large Helical Device
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Improved performance of electron cyclotron resonance heating by perpendicular injection in the Large Helical Device

机译:通过垂直于大螺旋装置垂直喷射来改进电子回旋共振加热的性能

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摘要

A real-time interlock system for power injection in electron cyclotron resonance heating (ECRH) was developed to be applied to Large Helical Device (LHD) plasma. This system enabled perpendicular injection, thus improving the performance of ECRH more than has ever been achieved before in LHD. Perpendicular propagation of the electron cyclotron wave at 77 GHz became more insensitive to the effect of refraction in comparison to the conventional oblique propagation. The achieved central electron temperature in the case of perpendicular injection was approximately 2 keV higher than that in the case of standard oblique injection for a central electron density of 1 × 10~(19) m~(-3) by 1 MW injection. With such improved performance of ECRH, high-density ECRH plasma of 8 × 10~(19) m~(-3) was successfully sustained after the injection of multiple hydrogen ice pellets for the first time in LHD.
机译:开发了一种用于电子回火谐振加热(ECRH)的电力注射的实时互锁系统以应用于大螺旋装置(LHD)等离子体。该系统使垂直注入,从而提高了ECRH的性能,而不是在LHD之前实现的。与传统的倾斜传播相比,77GHz的电子回旋波的垂直传播变得更加不敏感对折射的影响。在垂直喷射的情况下实现的中央电温度高于1×10〜(19)m〜(3)的标准倾斜注射的情况下高约2keV。通过这种改善的ECRH性能,在LHD中首次在注射多个氢冰颗粒后,高密度ECRH等离子体为8×10〜(19)m〜(-3)。

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  • 来源
    《Nuclear fusion》 |2021年第2期|026012.1-026012.9|共9页
  • 作者

    T.I. Tsujimura; R. Yanai; Y. Mizuno; K. Tanaka; Y. Yoshimura; T. Tokuzawa; M. Nishiura; R. Sakamoto; G. Motojima; S. Kubo; T. Shimozuma; H. Igami; H. Takahashi; M. Yoshinuma; S. Ohshima;

  • 作者单位

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan The Graduate University for Advanced Studies SOKENDAI Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan The Graduate University for Advanced Studies SOKENDAI Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan The Graduate University for Advanced Studies SOKENDAI Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan The Graduate University for Advanced Studies SOKENDAI Toki Gifu 509-5292 Japan;

    National Institute for Fusion Science National Institutes of Natural Sciences Toki Gifu 509-5292 Japan;

    Institute for Advanced Energy Kyoto University Uji Kyoto 611-0011 Japan;

  • 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

    ECRH; LHD; perpendicular injection; high-temperature plasma; high-density plasma;

    机译:ECRH;LHD;垂直注射;高温等离子体;高密度等离子体;
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