Direct electron heating experiment on the Aditya tokamak using fast waves in the ion cyclotron resonance frequency range

Mishra K.; Kulkarni S.V.; Rathi D.; Varia A.D.; Jadav H.M.; Parmar K.M.; Kadia B.R.; Joshi R.; Srinivas Y.S.S.; Singh R.; Dani S.; Gayatri A.; Yogi R.A.; Manoj S.; Joisa Y.S.; Rao C.V.S.; Kumar S.; Jha R.; Manchanda R.; Ghosh J.; Atrey P.K.; Bhatt S.B.; Gupta C.N.; Chattopadhyaya P.K.

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Direct electron heating experiment on the Aditya tokamak using fast waves in the ion cyclotron resonance frequency range

机译：使用离子回旋共振频率范围内的快波对Aditya托卡马克进行直接电子加热实验

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Second harmonic heating experiments using fast waves are carried out on the Aditya tokamak in the ion cyclotron resonance frequency (ICRF) range with the help of a 200 kW, 20-40 MHz RF heating system, which is developed indigenously. Significant direct electron heating is observed in a hydrogen plasma. The rise in electron temperature is prompt with the application of RF power and the increment in electron temperature increases linearly with RF power. A corresponding increase in plasma beta and hence an increase in stored diamagnetic energy are also observed in the presence of RF power. The low-Z impurity radiation and electron density do not increase significantly with RF power. The direct electron heating by fast wave in Aditya is also predicted by the ion cyclotron resonance heating code TORIC.

机译：借助自行开发的200 kW，20-40 MHz射频加热系统，在离子回旋共振频率（ICRF）范围内的Aditya托卡马克上进行了使用快波的二次谐波加热实验。在氢等离子体中观察到明显的直接电子加热。随着RF功率的施加，电子温度的升高是迅速的，而电子温度的升高则随着RF功率的增加而线性增加。在存在RF功率的情况下，还观察到血浆β的相应增加，因此也增加了所存储的抗磁能。低Z杂质辐射和电子密度不会随RF功率显着增加。离子回旋共振加热代码TORIC也预测了Aditya中通过快速波进行的直接电子加热。

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《Plasma physics and controlled fusion》 |2011年第9期|共10页
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Mishra K.; Kulkarni S.V.; Rathi D.; Varia A.D.; Jadav H.M.; Parmar K.M.; Kadia B.R.; Joshi R.; Srinivas Y.S.S.; Singh R.; Dani S.; Gayatri A.; Yogi R.A.; Manoj S.; Joisa Y.S.; Rao C.V.S.; Kumar S.; Jha R.; Manchanda R.; Ghosh J.; Atrey P.K.; Bhatt S.B.; Gupta C.N.; Chattopadhyaya P.K.;
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中图分类等离子体物理学;
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1. Direct electron heating experiment on the Aditya tokamak using fast waves in the ion cyclotron resonance frequency range [J] . Mishra K., Kulkarni S.V., Rathi D., Plasma physics and controlled fusion . 2011,第9期

机译：使用离子回旋共振频率范围内的快波对Aditya托卡马克进行直接电子加热实验
2. Commissioning of Electron Cyclotron Resonance Heating (ECRH) system on tokamak Aditya-U [J] . Shukla Braj K., Patel Jatin, Mistry Hardik, Fusion Engineering and Design . 2019,第Sepa期

机译：托卡马克Aditya-U上的电子回旋共振加热（ECRH）系统的调试
3. COMMISSIONING OF THE 28-GHz ELECTRON CYCLOTRON RESONANCE HEATING SYSTEM ON ADITYA TOKAMAK [J] . B. K. SHUKLA, K. SATHYANARAYANA, D. BORA, Fusion Science and Technology . 2006,第4期

机译：ADITYA TOKAMAK上的28 GHz电子回旋共振加热系统的调试
4. Direct Electron Heating Observed by Fast Waves in ICRF Range on a Low-Density Low Temperature Tokamak ADITYA [C] . K. Mishra, S. Kulkarni, D. Rathi, Topical Conference on Radio Frequency Power in Pasmas . 2011

机译：通过ICRF在低密度低温Tokamak Aditya上通过ICRF范围的快速波观察到的直接电子加热
5. Fast wave ion cyclotron resonance heating experiments on the advanced toroidal facility [D] . Kwon, Myeun. 1990

机译：先进环形装置上的快速波离子回旋加速器共振加热实验
6. Cyclotron resonance in the high mobility GaAs/AlGaAs 2D electron system over the microwave mm-wave and terahertz- bands [O] . A. Kriisa, R. L. Samaraweera, M. S. Heimbeck, -1

机译：高迁移率GaAs / AlGaAs 2D电子系统中回旋加速器在微波毫米波和太赫兹波段上的共振
7. Fast wave ion cyclotron resonance heating experiments on the Alcator C tokamak [O] . Shepard T.D., Fiore C.L., Dermott F.S., 1990

机译：alcator C托卡马克快波离子回旋加速共振加热实验

Direct electron heating experiment on the Aditya tokamak using fast waves in the ion cyclotron resonance frequency range

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