The physics of the mean and oscillating radial electric field in the L-H transition: the driving nature and turbulent transport suppression mechanism

T. Kobayashi

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The physics of the mean and oscillating radial electric field in the L-H transition: the driving nature and turbulent transport suppression mechanism

机译：L-H转变中均值和振动径向电场的物理：驱动性质和湍流运输抑制机构

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摘要

The low-to-high confinement mode transition (L-H transition) is one of the key elements in achieving a self-sustained burning fusion reaction. Although there is no doubt that the mean and/or oscillating radial electric field plays a role in triggering and sustaining the edge transport barrier, the detailed underlying physics are yet to be unveiled. In this special topic paper, the remarkable progress achieved in recent years is reviewed for two different aspects: (ⅰ) the radial electric field driving procedure and (ⅱ) the turbulent transport suppression mechanism. Experimental observations in different devices show possible conflicting natures for these phenomena, which cannot be resolved solely by conventional paradigms. New insights obtained by combining different model concepts successfully reconcile these conflicts.

机译：低到高限制模式转换（L-H转换）是实现自持续燃烧融合反应的关键元件之一。虽然毫无疑问，径向电场在触发和维持边缘传输屏障中起作用的均值和/或振荡电场，但是尚未揭开详细的底层物理学。在这篇特别论文中，近年来实现了显着进展，对两个不同的方面进行了审查：（Ⅰ）径向电场驱动程序和（Ⅱ）湍流运输抑制机制。不同设备的实验观察显示出这些现象的可能矛盾的性质，这不能仅通过常规范式来解决。通过组合不同的模型概念来成功地协调这些冲突而获得的新见解。

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来源
《Nuclear fusion》 |2020年第9期|095001.1-095001.19|共19页
作者
T. Kobayashi;
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作者单位

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

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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
L-H transition; radial electric field; radial current; turbulent transport; cross phase; turbulence trapping;

机译：L-H过渡;径向电场;径向电流;湍流运输;交叉阶段;湍流陷阱;

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专利

1. L-H transition physics in hydrogen and deuterium: key role of the edge radial electric field and ion heat flux [J] . Ryter F., Cavedon M., Happel T., Plasma physics and controlled fusion . 2016,第1期

机译：氢和氘中的L-H跃迁物理学：边缘径向电场和离子热通量的关键作用
2. The time behaviour of radial electric fields at the L-H transition from the observation of ripple-trapped ions [J] . Herrmann W., Kurki-Suonio T., Heikkinen JA. Plasma physics and controlled fusion . 1998,第5期

机译：从波纹陷阱离子的观察，在L-H跃迁处径向电场的时间行为
3. Model validation for radial electric field excitation during L-H transition in JFT-2M tokamak [J] . T. Kobayashi, K. ltoh, T. Ido, Nuclear fusion . 2017,第7期

机译：JFT-2M托卡马克L-H过渡期间径向电场激励的模型验证
4. Study of the edge radial electric field during the L-H transition at ASDEX Upgrade [C] . M. Cavedon, T. Pütterich, E. Viezzer, EPS Conference on Plasma Physics . 2016

机译：在ASDEX升级期间L-H转换期间边缘径向电场的研究
5. Effects of turbulent magnetic fields on the transport and acceleration of energetic charged particles: Numerical simulations with application to heliospheric physics. [D] . Guo, Fan. 2012

机译：湍流磁场对高能带电粒子的传输和加速的影响：数值模拟及其在日球物理学中的应用。
6. Turbulent transport reduction induced by transition on radial electric field shear and curvature through amplitude and cross-phase in torus plasma [O] . T. Kobayashi, K. Itoh, T. Ido, -1

机译：环形等离子体中振幅和交叉相变引起的径向电场切变和曲率过渡引起的湍流输运减少
7. L-H transition physics in hydrogen and deuterium: key role of the edge radial electric field and ion heat flux [O] . F Ryter, M Cavedon, T Happel, 2015

机译：L-H过渡物理氢气和氘：边缘径向电场和离子热通量的关键作用
8. Study of edge electric field and edge microturbulence at the L-H transition in DIII-D. [R] . P. Gohil K. H. Burrell R. J. Groebner R. P. Seraydarian E. J. Doyle 1991

机译：DIII-D中L-H跃迁边缘电场和边缘微湍流的研究。

The physics of the mean and oscillating radial electric field in the L-H transition: the driving nature and turbulent transport suppression mechanism

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