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Global and Self-consistent Simulation of ICRF Heating in Toroidal Plasmas

机译：环形等离子体中ICRF加热的全球和自我一致的模拟

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The ICRF heating in toroidal plasmas is studied using two global simulation codes: a full wave field solver TASK/WM and a drift kinetic equation solver GNET. The codes are applied to both tokamaks and helical systems. The full wave code TASK/WM evaluates the realistic wave electric field, in which the effect of the self-consistent non-Maxwellian velocity distribution on the wave propagation is taken into account. GNET solves a linearized drift kinetic equation (5D phase-space) for energetic ions including complicated behavior of trapped particles in helical systemsCharacteristics of energetic ion distributions in the phase space are investigatedSelf-consistent analysis including the effect of energetic ion distribution on the fast wave propagation is also reported for tokamak plasmas.

机译：使用两个全局模拟代码研究了环形等离子体中的ICRF加热：全波场解算器任务/ WM和漂移动力学方程求解器GNet。该代码适用于Tokamaks和螺旋系统。全波代码任务/ WM评估现实波电场，其中考虑了自我一致的非克斯韦尔速度分布对波传播的影响。 GNet解决了能量离子的线性化漂移动力学方程（5D相空间），包括在相位空间中的能量离子分布中的螺旋系统特征中被捕获的粒子的复杂行为进行了研究，该分析包括在快速波传播上的能量离子分布的影响还报告了托卡马克等离子体。

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《Topical Conference on Radio Frequency Power in Plasmas 》|2005年||共8页
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作者
S. Murakami; A. Fukuyama; T. Akutsu; N. Nakajima; V. Chan; M. Choi; S. C. Chiu; L. Lao; V. Kasilov; T. Mutoh;
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中图分类 TN8-532;
关键词
ICRF hating; global simulation; tokamak; heilical; LHD;

机译：ICRF讨厌;全球模拟;Tokamak;Heilical;LHD;

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1. Simulations of ICRF heating of fusion oriented plasmas in plane-stratified and full toroidal geometry [J] . M. Brambilla, R. Bilato Nuclear fusion . 2021 ,第7期

机译：平面分层融合融合等离子体ICRF加热的模拟
2. Full-wave simulations of ICRF heating regimes in toroidal plasma with non-Maxwellian distribution functions [J] . N. Berteiii, E.J. Valeo, D.L. Green, Nuclear fusion . 2017 ,第5期

机译：环形等离子体中的ICRF加热制度的全波模拟，具有非最大威斯康星分布功能
3. A Global Simulation Study of ICRF Heating by TASK/WM and GNET in Helical Plasmas [J] . Tetsuya YAMAMOTO, Sadayoshi MURAKAMI, Atsushi FUKUYAMA Research report NIFS-PROC series . 2009 ,第78期

机译：TASK / WM和GNET在螺旋等离子体中加热ICRF的全局模拟研究
4. Global and Self-consistent Simulation of ICRF Heating in Toroidal Plasmas [C] . S. Murakami, A. Fukuyama, T. Akutsu, Topical Conference on Radio Frequency Power in Plasmas . 2005

机译：环形等离子体中ICRF加热的全球和自我一致的模拟
5. NUMERICAL SIMULATIONS OF ICRF HEATED TOKAMAK PLASMAS [D] . BLACKFIELD, DONALD THOMAS. 1980

机译：ICRF加热的托卡马克等离子体的数值模拟
6. Two-Dimensional Self-Consistent Radio Frequency Plasma Simulations Relevant to the Gaseous Electronics Conference RF Reference Cell [O] . Dimitris P. Lymberopoulos, Demetre J. Economou 1995

机译：与气态电子会议RF参考单元相关的二维自洽射频等离子体仿真
7. Full-wave Simulations of ICRF Heating in Toroidal Plasma with Non-Maxwellian Distribution Functions in the FLR Limit [O] . E.J. Valeo, C.K. Phillips, H. Okuda, J.C. Wright, P.T. Bonoli, L.A. Berry, and the RF SciDAC Team 2007

机译：FLR极限内具有非麦克斯韦分布函数的环形等离子体中ICRF加热的全波模拟
8. Full-wave Simulations of ICRF Heating in Toroidal Plasma with Non-Maxwellian Distribution Functions in the FLR Limit [R] . Valeo, E. J., Phillips, C. K., Okuda, H., 2007

机译：FLR极限内具有非麦克斯韦分布函数的环形等离子体中ICRF加热的全波模拟

Global and Self-consistent Simulation of ICRF Heating in Toroidal Plasmas

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