Energy Confinement Time and Heat Transport in Initial Neutral Beam Heated Plasmas

Authors :: H., Yamada
K.Y., Watanabe
S., Sakakibara
S., Murakami
M., Osakabe
O., Kaneko
K., Narihara
K., Tanaka
K., Ida
T., Minami
M., Goto
H., Idei
S., Inagaki
S., Kado
K., Kawahata
A., Komori
S., Kubo
J., Miyazawa
T., Morisaki
S., Morita
H., Nakanishi
S., Ohdachi
N., Ohyabu
Y., Oka
B.J., Peterson
R., Sakamoto
M., Shoji
H., Suzuki
Y., Takeiri
K., Toi
T., Tokuzawa
K., Tsumori
I., Yamada
K., Ohkubo
S., Sudo
K., Yamazaki
O., Motojima
M., Fujiwara
Experimental Group, LHD
Source :: Physical Review Letters. 84(Issue 6):1216
Publication Year :: 2000
Publisher :: American Physical Society, 2000.
Abstract: The confinement characteristics of large net-current-free plasmas heated by neutral-beam injection have been investigated in the Large Helical Device (LHD). A systematic enhancement in energy-confinement times from the scaling derived from the medium-sized heliotron/torsatron experiments have been observed, which is attributed to the edge pedestal. The core confinement is scaled with the Bohm term divided by the square root of the gyro radii. The comparative analysis using a dimensionally similar discharge in the Compact Helical System indicates gyro-Bohm dependence in the core and transport improvement in the edge region of LHD plasmas.

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