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JET (3He)–D scenarios relying on RF heating: survey of selected recent experiments

等离子体 物理 原子物理学 回旋加速器 电子 锯齿波 介质加热 离子 吸收(声学) 喷射(流体) 电子回旋共振 计算物理学 无线电频率 粒子(生态学) 核物理学 光学 机械 微波食品加热 电信 海洋学 量子力学 计算机科学 计算机视觉 地质学
作者
D. Van Eester,E. Lerche,Y. Andrew,T. M. Biewer,A. Casati,Kristel Crombé,E. de la Luna,Göran Ericsson,R. Felton,L. Giacomelli,C. Giroud,N. Hawkes,C. Hellesen,Anders Hjalmarsson,E. Joffrin,J. Källne,V. Kiptily,P. J. Lomas,P. Mantica,A. Marinoni,M.‐L. Mayoral,J. Ongena,M. E. Puiatti,M. Santala,S. E. Sharapov,M. Valisa,Jet Contributors
出处
期刊:Plasma Physics and Controlled Fusion [IOP Publishing]
卷期号:51 (4): 044007-044007 被引量:49
标识
DOI:10.1088/0741-3335/51/4/044007
摘要

Recent JET experiments have been devoted to the study of (3He)–D plasmas involving radio frequency (RF) heating. This paper starts by discussing the RF heating efficiency theoretically expected in such plasmas, covering both relevant aspects of wave and of particle dynamics. Then it gives a concise summary of the main conclusions drawn from recent experiments that were either focusing on studying RF heating physics aspects or that were adopting RF heating as a tool to study plasma behavior. Depending on the minority concentration chosen, different physical phenomena are observed. At very low concentration (X[3He] < 1%), energetic tails are formed which trigger MHD activity and result in loss of fast particles. Alfvén cascades were observed and gamma ray tomography indirectly shows the impact of sawtooth crashes on the fast particle orbits. Low concentration (X[3He] < 10%) favors minority heating while for X[3He] ≫ 10% electron mode conversion damping becomes dominant. Evidence for the Fuchs et al standing wave effect (Fuchs et al 1995 Phys. Plasmas 2 1637–47) on the absorption is presented. RF induced deuterium tails were observed in mode conversion experiments with large X[3He] (≈18%). As tentative modeling shows, the formation of these tails can be explained as a consequence of wave power absorption by neutral beam particles that efficiently interact with the waves well away from the cold D cyclotron resonance position as a result of their substantial Doppler shift. As both ion and electron RF power deposition profiles in (3He)–D plasmas are fairly narrow—giving rise to localized heat sources—the RF heating method is an ideal tool for performing transport studies. Various of the experiments discussed here were done in plasmas with internal transport barriers (ITBs). ITBs are identified as regions with locally reduced diffusivity, where poloidal spinning up of the plasma is observed. The present know-how on the role of RF heating for impurity transport is also briefly summarized.

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