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Investigation of energy confinement during ICRF heating on EAST

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Abstract
A summary is given on recent experiments in L-mode with ion cyclotron resonance heating (ICRH) of hydrogen minority in deuterium plasmas on EAST. Experiments show a degradation of confinement with increasing power. Furthermore, the energy confinement time increases with plasma current and magnetic field, whereas it is insensitive to line averaged density. Minority heating has been found to be efficient, and parameters were optimized to maximize its efficiency. ICRH in lower hybrid waves heated plasma was also investigated.
Keywords
ION-CYCLOTRON RANGE, MODE CONVERSION, CURRENT DRIVE, TORE-SUPRA, ASDEX-UPGRADE, JET TOKAMAK, FREQUENCY, REGIMES, PLASMAS, RESONANCE, EAST, ICRH, confinement

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Chicago
Yang, Y. Q., X. J. Zhang, Y. P. Zhao, C. M. Qin, Y. Cheng, Y. Z. Mao, H. Yang, et al. 2017. “Investigation of Energy Confinement During ICRF Heating on EAST.” Plasma Physics and Controlled Fusion 59 (9).
APA
Yang, Y. Q., Zhang, X. J., Zhao, Y. P., Qin, C. M., Cheng, Y., Mao, Y. Z., Yang, H., et al. (2017). Investigation of energy confinement during ICRF heating on EAST. PLASMA PHYSICS AND CONTROLLED FUSION, 59(9).
Vancouver
1.
Yang YQ, Zhang XJ, Zhao YP, Qin CM, Cheng Y, Mao YZ, et al. Investigation of energy confinement during ICRF heating on EAST. PLASMA PHYSICS AND CONTROLLED FUSION. Bristol: Iop Publishing Ltd; 2017;59(9).
MLA
Yang, Y. Q., X. J. Zhang, Y. P. Zhao, et al. “Investigation of Energy Confinement During ICRF Heating on EAST.” PLASMA PHYSICS AND CONTROLLED FUSION 59.9 (2017): n. pag. Print.
@article{8530311,
  abstract     = {A summary is given on recent experiments in L-mode with ion cyclotron resonance heating (ICRH) of hydrogen minority in deuterium plasmas on EAST. Experiments show a degradation of confinement with increasing power. Furthermore, the energy confinement time increases with plasma current and magnetic field, whereas it is insensitive to line averaged density. Minority heating has been found to be efficient, and parameters were optimized to maximize its efficiency. ICRH in lower hybrid waves heated plasma was also investigated.},
  articleno    = {095001},
  author       = {Yang, Y. Q. and Zhang, X. J. and Zhao, Y. P. and Qin, C. M. and Cheng, Y. and Mao, Y. Z. and Yang, H. and Yuan, S. and Wang, L. and Ju, S. Q. and Chen, G. and Zhang, J. H. and Wang, J. H. and Chen, Z. and Wan, B. N. and Gong, X. Z. and Qian, J. P. and Zhang, T. and Li, J. G. and Song, Y. T. and Lin, Y. and Taylor, G. and Hosea, J. C. and Perkins, R. J. and Wukitch, S. and Noterdaeme, Jean-Marie and Kumazawa, R. and Seki, T. and Saito, K. and Kasahara, H.},
  issn         = {0741-3335},
  journal      = {PLASMA PHYSICS AND CONTROLLED FUSION},
  language     = {eng},
  number       = {9},
  pages        = {7},
  publisher    = {Iop Publishing Ltd},
  title        = {Investigation of energy confinement during ICRF heating on EAST},
  url          = {http://dx.doi.org/10.1088/1361-6587/aa7598},
  volume       = {59},
  year         = {2017},
}

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