SELF-ORGANIZED DYNAMICS AND THERMAL INSTABILITY IN STEADY STATE TOKAMAKS

A. FUKUYAMA; S.-I. ITOH; M. YAGI; K. ITOH

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SELF-ORGANIZED DYNAMICS AND THERMAL INSTABILITY IN STEADY STATE TOKAMAKS

机译：稳态托卡马克中的自组织动力学和热不稳定

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A consistent numerical simulation is performed to study the dynamics in a steady state plasma with improved core confinement which is sustained by a bootstrap current and external drive. A new non-linear link between the profiles of the pressure, current and thermal conductivity is investigated. A self-organized oscillation (i.e. spatio-temporal limit cycle oscillation) of the plasma pressure and current, coupled by the variation of the confinement enhancement factor, is predicted to occur. In the presence of α particle heating, the time variation of the plasma parameters causes a change in the α heating power. This provides a new picture of the thermal instability in burning plasmas.

机译：进行了一致的数值模拟，以研究具有改善的磁芯约束的稳态等离子体的动力学，该磁芯约束由自举电流和外部驱动器维持。研究了压力，电流和导热系数之间的新型非线性联系。血浆压力和电流的自组织振荡（即时空极限循环振荡），与约束增强因子的变化相结合，预计会发生。在存在α粒子加热的情况下，等离子体参数的时间变化会导致α加热功率的变化。这为燃烧等离子体中的热不稳定性提供了新的图像。

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来源
《Nuclear fusion》 |1995年第12期|p.1669-1677|共9页
作者
A. FUKUYAMA; S.-I. ITOH; M. YAGI; K. ITOH;
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作者单位

Faculty of Engineering, Okayama University, Okayama, 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
中图分类原子核物理学、高能物理学;
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1. Suprathermal electron dynamics and MHD instabilities in a tokamak [J] . Kamleitner J., Coda S., Decker J., Plasma physics and controlled fusion . 2015,第10期

机译：托卡马克中的超热电子动力学和MHD不稳定性
2. Evidence of enhanced self-organized criticality (SOC) dynamics during the radially non-local transient transport in the HL-2A tokamak [J] . O. Pan, Y. Xu, C. Hidalgo, Nuclear fusion . 2015,第11期

机译：HL-2A托卡马克径向非局部瞬态运输过程中增强的自组织临界（SOC）动力学的证据
3. Dynamically stable, self-similarly evolving, and self-organized states of high beta tokamak and reversed pinch plasmas and advanced active control [J] . Kondoh Y, Fukasawa T Physics of plasmas . 2009,第11期

机译：高β托卡马克和反向收缩等离子体的动态稳定，自相似演化和自组织状态以及先进的主动控制
4. Analysis of the supra-thermal electrons during disruption instability in the T-10 tokamak [C] . International Atomic Energy Agency technical meeting on energetic particles in magnetic confinement systems . 2006

机译：T-10 Tokamak中断不稳定性期间的Supra-热电子分析
5. Shaping Effects on Magnetohydrodynamic Instabilities in a Tokamak Plasma Surrounded by a Resistive Wall [D] . Rhodes, Dov Joseph. 2017

机译：围绕电阻壁的托卡马克等离子体中磁流体动力不稳定性的成形效应
6. Lattice Dynamics Study of Phonon Instability and Thermal Properties of Type-I Clathrate K8Si46 under High Pressure [O] . Wei Zhang, Zhao Yi Zeng, Ni Na Ge, 2016

机译：高压下I型包合物K8Si46的声子不稳定性和热学性质的晶格动力学研究
7. Self-Organized Dynamics and Thermal Instability in Steady State Tokamaks [O] . A. Fukuyama, Y. Fuji, S.-I. Itoh, 100

机译：稳态托卡马克的自组织动力学和热不稳定性
8. Thermal Instability Analysis in a D-T Tokamak Reactor with Density Dynamics [R] . Hatayama, A., Sugihara, M., Hirayama, T. 1982

机译：具有密度动力学的D-T托卡马克反应堆的热不稳定性分析

SELF-ORGANIZED DYNAMICS AND THERMAL INSTABILITY IN STEADY STATE TOKAMAKS

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