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Suppression of runaway electrons during electron cyclotron resonance heating on HL-2A tokamak

Published online by Cambridge University Press:  10 September 2009

JIN-WEI YANG
Affiliation:
Southwestern Institute of Physics, PO Box 432, Chengdu 610041, Sichuan, China (yangjw@swip.ac.cn; zhangyp@swip.ac.cn; lixx@swip.ac.cn; songxy@swip.ac.cn; yuanglw@swip.ac.cn; liaom@swip.ac.cn; yangqw@swip.ac.cn)
YI-PO ZHANG
Affiliation:
Southwestern Institute of Physics, PO Box 432, Chengdu 610041, Sichuan, China (yangjw@swip.ac.cn; zhangyp@swip.ac.cn; lixx@swip.ac.cn; songxy@swip.ac.cn; yuanglw@swip.ac.cn; liaom@swip.ac.cn; yangqw@swip.ac.cn)
XU LI
Affiliation:
Southwestern Institute of Physics, PO Box 432, Chengdu 610041, Sichuan, China (yangjw@swip.ac.cn; zhangyp@swip.ac.cn; lixx@swip.ac.cn; songxy@swip.ac.cn; yuanglw@swip.ac.cn; liaom@swip.ac.cn; yangqw@swip.ac.cn)
XIAN-YING SONG
Affiliation:
Southwestern Institute of Physics, PO Box 432, Chengdu 610041, Sichuan, China (yangjw@swip.ac.cn; zhangyp@swip.ac.cn; lixx@swip.ac.cn; songxy@swip.ac.cn; yuanglw@swip.ac.cn; liaom@swip.ac.cn; yangqw@swip.ac.cn)
GUO-LIANG YUAN
Affiliation:
Southwestern Institute of Physics, PO Box 432, Chengdu 610041, Sichuan, China (yangjw@swip.ac.cn; zhangyp@swip.ac.cn; lixx@swip.ac.cn; songxy@swip.ac.cn; yuanglw@swip.ac.cn; liaom@swip.ac.cn; yangqw@swip.ac.cn)
MIN LIAO
Affiliation:
Southwestern Institute of Physics, PO Box 432, Chengdu 610041, Sichuan, China (yangjw@swip.ac.cn; zhangyp@swip.ac.cn; lixx@swip.ac.cn; songxy@swip.ac.cn; yuanglw@swip.ac.cn; liaom@swip.ac.cn; yangqw@swip.ac.cn)
LI-QUN HU
Affiliation:
Institute of Plasma physics, Chinese Academy of Science, Hefei 230031, Anhui, China (lqhu@ipp.ac.cn; linsy@ipp.ac.cn)
SHI-YAO LIN
Affiliation:
Institute of Plasma physics, Chinese Academy of Science, Hefei 230031, Anhui, China (lqhu@ipp.ac.cn; linsy@ipp.ac.cn)
QING-WEI YANG
Affiliation:
Southwestern Institute of Physics, PO Box 432, Chengdu 610041, Sichuan, China (yangjw@swip.ac.cn; zhangyp@swip.ac.cn; lixx@swip.ac.cn; songxy@swip.ac.cn; yuanglw@swip.ac.cn; liaom@swip.ac.cn; yangqw@swip.ac.cn)

Abstract

The statistical analysis of heating effect and the cross-correlation analysis of both electron temperature and loop voltage have been done during electron cyclotron resonance heating (ECRH). The behavior of runaway electrons in the flat-top phase during ECRH are analyzed using experimental data. It is shown that the runaway population is indeed suppressed or even quenched when the toroidal electric field ET is reduced below the threshold electric field Eth by high-power and long-duration ECRH. The physical mechanism of runaway suppression is explored by the resonant interaction between the electron cyclotron waves and the energetic runaway electrons.

Type
Papers
Copyright
Copyright © Cambridge University Press 2009

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References

[1]TFR Group, 1998 Nucl. Fus. 28, 1995.Google Scholar
[2]Xu, Y. C., Xue, S. W., Liu, Y., Xu, D. M., Guo, G. C., Ding, X. T., Chen, M. W., Yu, L. M., Jiang, X. F., Li, X. D. et al. , 1995 Chin. Phys. 4, 39.Google Scholar
[3]Shi, B. R., Long, Y. X., Dong, J. Q., Li, W. Z., Jiao, Y. M. and Wang, A. K. 2003 Chin. Phys. 12, 1251.Google Scholar
[4]Lazaros, A. 2001 Phys. Plasma 8, 1263.Google Scholar
[5]Lazaros, A., Shimizu, A., Yoshimura, Y., Matsuoka, K., Okamura, S., Suzuki, C. and the CHS Group, 2002 Phys. Plasma 9, 3007.CrossRefGoogle Scholar
[6]Yang, J. W., Zhang, Y. P., Liao, M., Hu, L. Q., Li, X., Song, X. Y., Lin, S. Y., Li, Y. G., Luo, C. W., Chen, L. Y. et al. , 2008 Chin. Phys. Lett. 25, 1022.Google Scholar
[7]Fisch, N. J. 1985 Phys. Fluids 28 (1), 245.CrossRefGoogle Scholar
[8]Martin-Solis, J. R., Esposito, B., Sanchez, R. and Granucci, G. 2004 Nucl. Fus. 44, 974.Google Scholar
[9]Yang, J. W., Cao, J. Y., Zeng, Q. X., Zhang, W., Tang, N. Y., Dong, J. F., Deng, Z. C., Xiao, Z. G. and Yao, L. H. 2002 Chin. Phys. Lett. 19, 230.Google Scholar
[10]Rosenbluth, M. N. and Putivinski, S. V. 1997 Nucl. Fus. 37, 1335.Google Scholar
[11]Yoshino, R., Tokuda, S. and Kawano, Y. 1999 Nucl. Fus. 39, 151.CrossRefGoogle Scholar
[12]Bornatici, M., Cano, R., Barbieri, O. D. and Engelmann, F. 1983 Nucl. Fus. 23, 1153.CrossRefGoogle Scholar
[13]Liu, C. S., An, Z. G., Boyd, D. A., Lee, Y. C., Muschietti, L., Appert, K. and Vaclavik, J. 1982 Comm. Plasma Phys. Contr. Fus. 7 (1), 21.Google Scholar
[14]Martin-Solis, J. R., Alvarez, J. D. and Sanchez, R. 1998 Phys. Plasma 5 (6), 2370.Google Scholar
[15]Karney, C. F. F. and Fisch, N. J. 1986 Phys. Fluids 29 (1), 180.Google Scholar
[16]Knoepfel, H and Spong, D. A. 1979 Nucl. Fus. 19, 785.CrossRefGoogle Scholar
[17]Martin-Solis, J. R., Esposito, B., Sanchez, R. and Granucci, G. and Panaccione, L. 2005 Nucl. Fus. 45, 1524.CrossRefGoogle Scholar
[18]Chen, Z. Y., Wan, B. N., Lin, S. Y., Shi, Y. J., Hu, L. Q., Younis, J., Shan, J. F., Gong, X. Z., Liu, F. K., Ding, B. J. et al. , 2006 Dynamics of runaway electron in lower hybrid current drive plasma in the HT-7 tokamak. Plasma Phys. Contr. Fus. 48, 1489.CrossRefGoogle Scholar
[19]Yang, J. W., Zeng, Q. X., Zhang, W., Liu, Y., Tang, N. Y. and Cao, J. Y. 2002 Enhancement of runaway avalanche during LHCD and fishbone instability [in Chinese]. Nucl. Fus. Plasma Phys. 22, 21.Google Scholar
[20]Esposito, B., Granucci, G., Smeulders, P., Novwak, S., Martin-Solis, J. R., Gabellieri, L., FTU and ECRH teams 2008 Phys. Rev. Lett. 100 (4), 045006-1.Google Scholar