Energetic particle physics in JT-60U and JFT-2M

Shinohara K; Takechi M; Ishikawa M; Kusama Y; Tsuzuki K; Urata K; Kawashima H; Tobita K; Fukuyama A; Cheng CZ

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Energetic particle physics in JT-60U and JFT-2M

机译：JT-60U和JFT-2M中的高能粒子物理

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Recent energetic particle physics research in JT-60U and JFT-2M is reported. Alfven eigenmodes (AEs) are investigated in reversed-shear (RS) plasmas in JT-60U where frequency sweeping (FS) modes are observed to follow the q-profile evolution. The RS-induced AE model can explain the FS of the modes within the context of an evolving q-profile. Enhanced energetic ion transport is also investigated with the appearance of modes in the toroidicity-induced AE range of frequency in JT-60U using a multi-channel neutron profile monitor and in JFT-2M using a lost ion probe. Additionally, the ripple loss in the complex toroidal field ripple due to ferritic steel inserts in JFT-2M is shown and compared with model analysis. The simulation code developed to predict ripple loss in JFT-2M will be of use in estimating the heat flux in the complex ripple field of a future device such as ITER.

机译：据报道，最近在JT-60U和JFT-2M中进行了高能粒子物理研究。在JT-60U的反向剪切（RS）等离子体中研究了Alfven本征模式（AEs），其中观察到了频率扫描（FS）模式遵循q轮廓演变。 RS诱导的AE模型可以解释q轮廓不断演变的情况下模式的FS。还使用多通道中子轮廓监测仪在JT-60U中和使用丢失离子探针在JFT-2M中研究了环形诱导的AE频率范围内模式的出现，从而研究了增强的高能离子传输。此外，还显示了由于JFT-2M中的铁素体钢刀片而导致的复杂环形场纹波中的纹波损耗，并与模型分析进行了比较。为预测JFT-2M中的纹波损耗而开发的仿真代码将用于估算未来设备（如ITER）的复杂纹波场中的热通量。

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来源
《Plasma physics and controlled fusion》 |2004年第7期|共15页
作者
Shinohara K; Takechi M; Ishikawa M; Kusama Y; Tsuzuki K; Urata K; Kawashima H; Tobita K; Fukuyama A; Cheng CZ;
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正文语种 eng
中图分类等离子体物理学;
关键词
TOROIDAL ALFVEN EIGENMODES; DRIVEN; PLASMAS; TOKAMAK; RIPPLE; TRANSPORT; REDUCTION; PROFILE; IONS;

机译：环面的本征模式;驱动;等离子;托卡马克;波纹;运输;还原;轮廓;离子;

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专利

1. Energetic particle physics in JT-60U and JFT-2M [J] . Shinohara K, Takechi M, Ishikawa M, Plasma physics and controlled fusion . 2004,第7期

机译：JT-60U和JFT-2M中的高能粒子物理
2. RECENT TECHNOLOGICAL PROGRESS FOR ADVANCED TOKAMAK RESEARCH IN JT-60U AND JFT-2M [J] . N. Hosogane Fusion Science and Technology . 2005,第3期

机译：JT-60U和JFT-2M先进托卡马克技术的最新技术进展
3. Self-consistent long-time simulation of chirping and beating energetic particle modes in JT-60U plasmas [J] . A. Bierwage, K. Shinohara, Y. Todo, Nuclear fusion . 2017,第1期

机译：JT-60U等离子体中chi和跳动的高能粒子模式的自洽长时间模拟
4. Blanket-plasma interaction in tokamaks Implication from JT-60U, JFT-2M and reactor studies [C] . M. Kikuchi, S. Nishio, G. Kurita, International Symposium on Fusion Nuclear Technology(ISFNT-7) pt.B . 2006

机译：从JT-60U，JFT-2M和反应堆研究中的托卡马克斯含有覆盖 - 等离子体互动
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. The ATM kinase signaling induced by the low-energy β-particles emitted by 33P is essential for the suppression of chromosome aberrations and is greater than that induced by the energetic β-particles emitted by 32P [O] . Jason S. White, Ning Yue, Jing Hu, -1

机译：由33P发出的低能量β-颗粒引起的ATM激酶信号对抑制染色体畸变是必不可少的并且大于32P发射的能量β-粒子诱导的
7. Dynamics of energetic particle driven modes and MHD modes in wall-stabilized high-βplasmas on JT-60U and DIII-D [O] . G. Matsunaga, M. Okabayashi, N. Aiba, 2013

机译：在JT-60U和DIII-D上壁稳定高βPLASMA中的能量粒子驱动模式和MHD模式的动态

Energetic particle physics in JT-60U and JFT-2M

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