First experimental measurements of a new fast ion driven micro-burst instability in a field-reversed configuration plasma

Deng B. H.; Douglass D.; Roche T.; Belova E. V; Beall M.; Binderbauer M. W.; Clary R.; Dettrick S. A.; Gota H.; Granstedt E.; Korepanov S.; Magee R. M.; Necas A.; Onofri M.; Putvinski S.; Smirnov A.; Song Y.; Tajima T.; Thompson M. C.; Tuszewski M.; Van Drie A. D.; Yang X.; Zhai K.; Horton W.

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First experimental measurements of a new fast ion driven micro-burst instability in a field-reversed configuration plasma

机译：在场反向配置等离子体中新的快速离子驱动的微爆不稳定性的首次实验测量

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In modern field-reversed configuration (FRC) experiments (Binderbauer et al 2015 Phys. Plasmas 22 056110) at TAE Technologies, classical FRC instabilities are suppressed by advanced neutral beam injection and edge biasing methods, leading to high plasma confinement and fast ion pressure built-up which is comparable to the bulk plasma pressure. In some of these high performance FRC plasmas, a new macroscopically non-destructive fast ion driven micro-burst instability is observed as periodic small amplitude bursts with frequency down chirping in the diamagnetic drift frequency range, repeating about every 0.1 to 0.5 ms. The occurrence of these micro-bursts and burst-free operation can be controlled by changing the injected neutral beam energy. Major observed characteristics of this new instability are presented. Possible explanation of the phenomenon is suggested.

机译：在TAE Technologies的现代场反转配置（FRC）实验（Binderbauer等人，2015 Phys。Plasmas 22 056110）中，先进的中性束注入和边缘偏置方法抑制了经典的FRC不稳定性，从而导致了较高的等离子体约束和快速的离子压力建立-up，可与整体血浆压力相比。在其中一些高性能FRC等离子体中，观察到一种新的宏观无损快速离子驱动微脉冲不稳定性，其表现为周期性的小振幅脉冲，在反磁漂移频率范围内频率向下chi，大约每0.1到0.5 ms重复一次。这些微脉冲和无脉冲操作的发生可以通过改变注入的中性束能量来控制。介绍了这种新的不稳定性的主要观察特征。建议对该现象进行可能的解释。

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来源
《Nuclear fusion》 |2018年第12期|126026.1-126026.8|共8页
作者
Deng B. H.; Douglass D.; Roche T.; Belova E. V; Beall M.; Binderbauer M. W.; Clary R.; Dettrick S. A.; Gota H.; Granstedt E.; Korepanov S.; Magee R. M.; Necas A.; Onofri M.; Putvinski S.; Smirnov A.; Song Y.; Tajima T.; Thompson M. C.; Tuszewski M.; Van Drie A. D.; Yang X.; Zhai K.; Horton W.;
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作者单位

Princeton Plasma Phys Lab, POB 451, Princeton, NJ 08543 USA;

TAE Technol Inc, Rancho Santa Margarita, CA 92688 USA;

Univ Texas Austin, Inst Fus Studies, Austin, TX 78712 USA;

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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
fast ion driven instability; field-reversed configuration; micro-burst; far-infrared laser interferometry; rotational instability; angular momentum; fishbone;

机译：快速离子驱动不稳定性;场反转结构;微爆;远红外激光干涉法;旋转不稳定性;角动量;鱼骨;

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1. Internal magnetic field measurement on C-2 field-reversed configuration plasmas [J] . Gota H., Thompson M. C., Knapp K., Review of Scientific Instruments . 2012,第10期

机译：C-2场反转配置等离子体的内部磁场测量
2. Detection and prediction of a beam-driven mode in field-reversed configuration plasma with recurrent neural networks [J] . Cory Scott, Sean Dettrick, Toshiki Tajima, Nuclear fusion . 2020,第12期

机译：经常性神经网络的现场反转配置等离子体中光束驱动模式的检测和预测
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机译：场反转配置等离子体中Alfven模式的实验表征
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机译：PPPS-2013：解决FRCHX中高密度场反转配置等离子体中的短捕集通量寿命
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机译：汤姆森散射系统的开发及其在旋转磁场驱动的场反转配置等离子体中的应用。
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机译：MRI感应金属引线加热的复杂性：374种配置的实验测量
7. Simulations of High Harmonic Fast Wave Heating on the C-2U Advanced Beam-Driven Field-Reversed Configuration Device [O] . Xiaokang Yang, Yuri Petrov, Francesco Ceccherini, 2017

机译：C-2U高级光束驱动现场反转配置装置的高谐波快速波加热模拟
8. Electron Temperature Measurements of Field-Reversed Configuration Plasmas on the FRX-C/LSM Experiment. [R] . Rej, D. J. 1989

机译：FRX-C / Lsm实验中场反转配置等离子体的电子温度测量。

First experimental measurements of a new fast ion driven micro-burst instability in a field-reversed configuration plasma

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