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(EXP3/12) MHD Characteristics in High-Beta Regime of the Large Helical Device

S. Sakakibara¹⁾, H. Yamada¹⁾, K. Y. Watanabe¹⁾, Y. Narushima¹⁾, K. Toi¹⁾, S. Ohdachi¹⁾, M. Takechi¹⁾, S. Yamamoto³⁾, K. Narihara¹⁾, K. Tanaka¹⁾, N. Ashikawa²⁾, P. de Vries¹⁾, M. Emoto¹⁾, H. Funaba¹⁾, M. Goto¹⁾, K. Ida¹⁾, H. Idei¹⁾, K. Ikeda¹⁾, S. Inagaki¹⁾, N. Inoue¹⁾, M. Isobe¹⁾, S. Kado¹⁾, O. Kaneko¹⁾, K. Kawahata¹⁾, K. Khlopenkov¹⁾, A. Komori¹⁾, S. Kubo¹⁾, R. Kumazawa¹⁾, S. Masuzaki¹⁾, T. Minami¹⁾, J. Miyazawa¹⁾, T. Morisaki¹⁾, S. Morita¹⁾, S. Murakami¹⁾, S. Muto¹⁾, T. Mutoh¹⁾, Y. Nagayama¹⁾, Y. Nakamura¹⁾, H. Nakanishi¹⁾, K. Nishimura¹⁾, N. Noda¹⁾, T. Notake³⁾, T. Kobuchi²⁾, Y. Liang²⁾, N. Ohyabu¹⁾, Y. Oka¹⁾, M. Osakabe¹⁾, T. Ozaki¹⁾, R. O. Pavlichenko¹⁾, B. J. Peterson¹⁾, A. Sagara¹⁾, K. Saito³⁾, R. Sakamoto¹⁾, H. Sasao²⁾, M. Sasao¹⁾, K. Sato¹⁾, M. Sato¹⁾, T. Seki¹⁾, T. Shimozuma¹⁾, M. Shoji¹⁾, H. Suzuki¹⁾, Y. Takeiri¹⁾, N. Tamura²⁾, T. Tokuzawa¹⁾, Y. Torii³⁾, K. Tsumori¹⁾, I. Yamada¹⁾, S. Yamaguchi¹⁾, M. Yokoyama¹⁾, Y. Yoshimura¹⁾, T. Watari¹⁾, N. Nakajima¹⁾, K. Ichiguchi¹⁾, H. Takahashi⁴⁾, W. A. Cooper⁵⁾, K. Yamazaki¹⁾, O. Motojima¹⁾, Y. Hamada¹⁾, M. Fujiwara¹⁾

¹⁾ National Institute for Fusion Science, Toki, Japan
²⁾ Department of Fusion Science, Graduate Univ. for Advanced Studies, Hayama, Japan
³⁾ Department of Energy Engineering and Science, Nagoya Univ., Nagoya, Japan
⁴⁾ Princeton Plasma Physics Laboratory, Princeton University, Princeton, USA
⁵⁾ Centre de recherches en physique des plasmas, Ecole Polytechnique Federale de Lausanne, Lausanne, Switzerland

Abstract. The highest volume averaged beta value $\beta_{t}^{}$ of 2.2% at B_t = 0.75 T (gas puff) and 2.4% at B_t = 1.3 T (pellet) in all of helical devices have been achieved in the Large Helical Device (LHD). The $\beta_{t}^{}$ dependence of MHD activities has been investigated in NBI plasmas. The n/m = 1/2 mode excited in the core region and $\chi$ = 1 resonant modes in peripheral region have been observed. Both of the fluctuation amplitudes increase with $\beta_{t}^{}$ and the pressure gradient. The strong n/m = 1/2 mode which affects plasma profile have been observed in high- $\beta_{t}^{}$ discharges and the abrupt disappearance of the mode leads to the restoration of T_e profile. Violent instabilities which terminate the plasma and degradation of global energy confinement have not been observed so far.

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IAEA 2001