Direct Electron Heating Observed by Fast Waves in ICRF Range on a Low-Density Low Temperature Tokamak ADITYA

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

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Fast wave electron heating experiments are carried out on Aditya tokamak [R(velence)0.75m, a(velence)0.25m, Bt(velence)0.75T, ne(approx)1-3E13/cc, Te(approx)250eV] with the help of indigenously developed 200 kW, 20-40 MHz RF heating system. Significant direct electron heating is observed by fast waves in hydrogen plasma with prompt rise in electron temperature with application of RF power and it increases linearly with RF power. A corresponding increase in plasma beta and hence increase in stored diamagnetic energy is also observed in presence of RF. We observe an improvement of energy confinement time from 2-4msec during ohmic heating phase to 3-6msec in RF heating phase. This improvement is within the ohmic confinement regime for the present experiments. The impurity radiation and electron density do not escalate significantly with RF power. The direct electron heating by fast wave in Aditya is also predicted by ion cyclotron resonance heating code TORIC.

机译：快速波电子加热实验在Aditya Tokamak [R（柔和度）0.75m，a（柔肠）0.25m，bt（柔软状态）0.75t，ne（约）1-3e13 / cc，te（约）250ev]本土开发了200千瓦，20-40 MHz RF加热系统的帮助。通过氢等离子体中的快速波观察到显着的直接电子加热，并利用RF功率提高电子温度升高，并且随着RF功率的线性增加。在RF存在下也观察到血浆β的相应增加并因此在储存的抗磁能增加。我们在欧姆加热阶段期间观察到从2-4毫秒的能量限制时间改善到RF加热阶段的3-6毫秒。这种改进是本实验的欧姆监禁制度。杂质辐射和电子密度与RF功率没有显着升级。通过离子回旋谐振加热码转矩预测通过Aditya中快速波的直接电子加热。

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《Topical Conference on Radio Frequency Power in Pasmas》|2011年||共4页
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K. Mishra; S. Kulkarni; D. Rathi; A. Varia; H. Jadav; K. Parmar; B. Kadia; R. Joshi; Y. Srinivas; R. Singh; S. Kumar; S. Dani; A. Gayatri; R. Yogi; M. Singh; Y. Joisa; C. Rao; S. Kumar; R. Jha; R. Manchanda; J. Ghosh; P. Atrey; S. Bhatt; C. Gupta; P. Chattopadhyaya; A. Chattopadhyaya; R. Srinivasan; D. Bora; P. Kaw;
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中图分类 TB9-53;
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Icrf heating; direct electron heating; energy confinement;

机译：ICRF加热;直接电子加热;能源限制;

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专利

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. Estimation of Power Transmission of Fast Wave in ICRF Range Through Tokamak Plasma Edge with the Help of Reflection Coefficient [J] . Dash Ajit Kumar, Chattopadhyay Asim Kumar Fusion Science and Technology . 2021,第1期

机译：在反射系数的帮助下通过Tokamak等离子体边缘估算ICRF范围快速波的动力传递
3. Behaviour of ion temperature in electron and ion heating regimes observed with ECH, NBI and ICRF discharges of LHD [J] . S.Morita, M.Goto, S.Kubo Nuclear fusion . 2002,第10期

机译：在LHD的ECH，NBI和ICRF放电中观察到的离子温度在电子和离子加热方式中的行为
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. High-harmonic fast wave coupling and heating experiments in the CDX-U spherical tokamak [D] . Menard, Jonathan Edward. 1998

机译：CDX-U球形托卡马克中的高谐波快速波耦合和加热实验
6. Direct imaging of plasma waves using ultrafast electron microscopy [O] . Shuaishuai Sun, Xiaoyi Sun, Daniel Bartles, 2020

机译：使用超氮电子显微镜直接成像等离子体波
7. Fast-Wave ICRF Minority-Regime Heating Experiments on the Tore Supra Tokamak [O] . T. D. Shepard, G. R. Haste, F. W. Baity, 1992

机译：撕裂Supra Tokamak的快速波ICRF少数群体加热实验
8. Review of tokamak experiments on direct electron heating and current drive with fast waves [R] . Pinsker, R. I. 1993

机译：回顾托卡马克实验对直接电子加热和电流驱动的快波

Direct Electron Heating Observed by Fast Waves in ICRF Range on a Low-Density Low Temperature Tokamak ADITYA

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