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Localized bulk electron heating with ICRF mode conversion in the JET tokamak

机译：在JET托卡马克中进行ICRF模式转换的局部大块电子加热

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Ion cyclotron resonance frequencies (ICRF) mode conversion has been developed for localized on-axis and off-axis bulk electron heating on the JET tokamak. The fast magnetosonic waves launched from the low-field side ICRF antennas are mode-converted to short-wavelength waves on the high-field side of the He-3 ion cyclotron resonance layer in D and He-4 plasmas and subsequently damped on the bulk electrons. The resulting electron power deposition, measured using ICRF power modulation, is narrow with a typical full-width at half-maximum of approximate to30 cm (i.e. about 30% of the minor radius) and the total deposited power to electrons comprises at least up to 80% of the applied ICRF power. The ICRF mode conversion power deposition has been kept constant using He-3 bleed throughout the ICRF phase with a typical duration of 4-6 s, i.e. 15-40 energy confinement times. Using waves propagating in the counter-current direction minimizes competing ion damping in the presence of co-injected deuterium beam ions.

机译：已开发出离子回旋共振频率（ICRF）模式转换，以在JET托卡马克上进行局部轴上和轴外体电子加热。从低场侧ICRF天线发射的快速磁声波在D和He-4等离子体中的He-3离子回旋加速器共振层的高场侧被模式转换为短波，随后在大块体上衰减电子。使用ICRF功率调制测量得到的电子功率沉积较窄，典型的半峰全宽约为30厘米（即小半径的大约30％），并且对电子的总沉积功率至少包括施加的ICRF功率的80％。在整个ICRF阶段使用He-3排放使ICRF模式转换功率沉积保持恒定，典型持续时间为4-6 s，即15-40能量限制时间。使用在逆流方向上传播的波可在存在共注入氘离子的情况下最大程度地减少竞争性离子衰减。

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Mantsinen M.J.; Mayoral M.-L.; Eester D. Van; Alper B.; Barnsley R.; Beaumont P.; Bucalossi J.; Coffey I.; Conroy S.; Baar M. de; Vries P. de; Erents K.; Figueiredo A.; Bondhalekar A.; Gowers C.; Hellsten T.; Joffrin E.; Kiptily V.; Lamalle P.U.; Lawson K.; Lyssoivan A.; Mailloux J.; Mantica P.; Meo F.; Milani F.; Monakhov I.; Murari A.; Nguyen F.; Noterdaeme J.-M.; Ongena J.; Petrov Y.; Rachlew E.; Riccardo V.; Righi E.; Rimini F.; Stamp M.; Tuccillo A.A.; Zastrow D.-D.; Zerbini M.;
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专利

1. Localized bulk electron heating with ICRF mode conversion in the JET tokamak [J] . M. J. Mantsinen, M.-L. Mayoral, D. Van Ester, Nuclear fusion . 2004,第1期

机译：JET托卡马克中具有ICRF模式转换的局部体电子加热
2. Hydrogen plasmas with ICRF inverted minority and mode conversion heating regimes in the JET tokamak [J] . Mayoral ML, Lamalle PU, Van Eester D, Nuclear fusion . 2006,第7期

机译：JET托卡马克中具有ICRF反向少数和模式转换加热方式的氢等离子体
3. ICRF mode conversion in three-ion species heating experiment and in flow drive experiment on the Alcator C-Mod tokamak [J] . Y. Lin, S.J. Wukitch, E. Edlund, EPJ Web of Conferences . 2017,第12期

机译：在Alcator C-Mod托卡马克上进行的三离子物种加热实验和流驱动实验中的ICRF模式转换
4. Bulk Ion Heating with ICRF Waves in Tokamaks [C] . M.J. Mantsinen, R. Bilato, V.V. Bobkov, Topical Conference on Radio Frequency Power in Plasmas . 2015

机译：散装离子加热与ICRF波在托卡马克斯
5. Multi-frequency ICRF diagnostic of Tokamak plasmas. [D] . LaFonteese, David James. 2006

机译：托卡马克等离子体的多频ICRF诊断。
6. Nonlinear saturation of ballooning modes in tokamaks and stellarators [O] . F. Bauer, P. Garabedian, O. Betancourt 1988

机译：托卡马克和恒星中气球模式的非线性饱和
7. Hydrogen plasmas with ICRF inverted minority and mode conversion heating regimes in the JET tokamak [O] . Mayoral, M., Lamalle, P., Van Eester, D., 2006

机译：具有ICRF的氢等离子体在JET托卡马克中反转少数和模式转换加热方式
8. Electron Heating by Mode-Converted Ion-Bernstein Waves in ICRF Heating of Tokamak Plasmas [R] . Ram, A. K. , Bers, A. 1987

机译：在托卡马克等离子体的ICRF加热中通过模式转换的离子 - 伯恩斯坦波进行电子加热

Localized bulk electron heating with ICRF mode conversion in the JET tokamak

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