Mode structure and stability of toroidal Alfven eigenmodes in ITER and TFTR DT plasmas

J. Candy; M.N. Rosenbluth

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Mode structure and stability of toroidal Alfven eigenmodes in ITER and TFTR DT plasmas

机译：ITER和TFTR DT等离子体中环形Alfven本征模式的模式结构和稳定性

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摘要

The small-inverse-aspect-ratio boundary layer approximation, which has been used previously to describe the analytic structure of a driven non-ideal toroidal Alfven eigenmodes (TAEs), is applied to a numerical stability calculation for the TAEs in ITER and TFTR plasmas. Away from TAE gaps (singular layers), zero beta cylindrical magnetohydrodynamics (MHDs) determines the generic structure of the outer solutions. Within each gap, a detailed kinetic treatment is used to include (i) modifications to the fluid equations arising from E// and finite Larmor radius, (ii) collisional damping from trapped electrons, (iii) collisionless (Landau) damping from passing ions and (iv) drive from finite-orbit-width fusion alpha particles and beam ions. The model is valid for arbitrary toroidal mode number and predicts the growth/damping rate of both the MHD-like TAE (that which is predicted by MHD theory) and the relevant kinetic TAEs.

机译：先前已用于描述驱动非理想环形Alfven本征模式（TAE）的解析结构的小纵横比边界层近似，用于ITER和TFTR等离子体中TAE的数值稳定性计算。远离TAE间隙（单层），零β圆柱磁流体动力学（MHD）决定了外部溶液的通用结构。在每个间隙内，进行详细的动力学处理，包括（i）对由E //和有限的拉莫尔半径引起的流体方程进行修改，（ii）捕获电子的碰撞阻尼，（iii）通过离子的无碰撞（Landau）阻尼（iv）从有限轨道宽度的融合α粒子和束离子中驱使。该模型对任意环形模数有效，并预测类MHD TAE（由MHD理论预测）和相关动力学TAE的增长/阻尼率。

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来源
《Nuclear fusion》 |1995年第9期|p. 1069-1097|共29页
作者
J. Candy; M.N. Rosenbluth;
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作者单位

General Atomics, San Diego, California, United States of America;

General Atomics, San Diego, California, United States of America;

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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. Toroidal Alfven eigenmodes in TFTR deuterium-tritium plasmas [J] . Nazikian R., Chang Z., Batha SH., Physics of plasmas . 1998,第5aPta2Speca期

机译：TFTR氘tri等离子体中的环形Alfven本征模式
2. OBSERVATION OF NEW BRANCH OF TOROIDAL ALFVEN EIGENMODES IN TFTR [J] . E.D. FREDRICKSON, M.G. BELL, R.V. BUDNY, Nuclear fusion . 1995,第12期

机译：TFTR环向本征模新分支的观察
3. Measurement of the instability threshold for toroidal Alfven eigenmodes in JET plasmas with forward and reversed magnetic field [J] . Testa D, Fasoli A, Boswell C Nuclear fusion . 2006,第8期

机译：正向和反向磁场在JET等离子体中环形Alfven本征模式的不稳定性阈值的测量
4. Resonant toroidal Alfven Eigenmodes (RTAEs) in Neutral Beam Heated Reverse Magnetic Shear Plasmas on TFTR [C] . R.Nazikian, N.N.gorelenkov, R.V.budny, IAEA technical committee meeting on energetic particles in magnetic confinement systems . 2000

机译：在TFTR上中性光束加热逆磁剪切等离子体中的共振环形Alfven特征模具（速率）
5. Gyrokinetic deltaf particle simulation of collisionless trapped electron mode and toroidicity-induced Alfven eigenmode. [D] . Lang, Jianying. 2008

机译：无碰撞俘获电子模式和超环性诱导的Alfven本征模式的陀螺动力学delf粒子模拟。
6. On the interplay between neoclassical tearing modes and nonlocal transport in toroidal plasmas [O] . X. Q. Ji, Y. Xu, C. Hidalgo, -1

机译：关于新古典撕裂模式与环形等离子体中非局部转运的相互作用
7. Stability analysis of toroidicity-induced Alfven eigenmodes in TFTR DT experiments [O] . Fu, G.Y., Cheng, C.Z., Budny, R., 1995

机译：TFTR DT实验中环形诱导的alfven本征模的稳定性分析
8. Stability analysis of toroidicity-induced Alfven eigenmodes in TFTR DT experiments [R] . Fu, G. Y., Cheng, C. Z., Budny, R., 1995

机译：TFTR DT实验中环形诱导的alfven本征模的稳定性分析

Mode structure and stability of toroidal Alfven eigenmodes in ITER and TFTR DT plasmas

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