High-Power Heating Results On Jt-60

M Akiba, Hirokazu Aikawa,N Akaoka,H Akasaka,Noboru Akino, Tomohiro Akiyama,T Ando,K Annoh,Takahiro Aoyagi, Tadashi Arai, Koh Arakawa,Mituhiko Araki, M Azumi, Sotaro Chiba,Masayuki Dairaku,N Ebisawa,Takashi Fujii,Toyoo Fukuda,A Funahashi,H Furukawa,K Hamamatsu,M Hanada, Mitsuko Hara, Keiko Haraguchi,Hiroyoshi Hiratsuka, Takashi Hirayama,S Hiroki, Koji Hiruta,M Honda,Hiroshi Horiike,Renko Hosoda,Naobumi Hosogane,T Iijima, Yukio Ikeda, Kyoji Ikeda, Takashi Imai, Tetsuo Inoue,N Isaji,Mitsuhiro Isaka, Shirou Ishida,Kiyoshi Itami,N Ichige, Toshiyuki Itoh, Toshikazu Kakizaki, Atsushi Kaminaga,T Katoh,Masayoshi Kawai, Mitsuo Kawabe,Y Kawamata, Keiichi Kawasaki, Kazuya Kikuchi, M Kikuchi, Hirohiko Kimura, Taichi Kimura,Hiroyuki Kishimoto, S Kitamura, A Kitsunezaki, K Kiyono, Noritoshi Kobayashi, Kazuhisa Kodama,S S Koide, Y Koide, T Kioke,M Komata, I Kondo,S Konoshima,Hidetoshi Kubo,S Kunieda,K Kurihara,Masao Kuriyama,Tatsuo Kuroda, Masayasu Kusaka, Y Kusama, Yasuhiro Mabuchi, Sachio Maehara, K Maeno,Tetsuya Matoba, Shinpei Matsuda, Masanori Matsukawa, Takashi Matsukawa,M Matsuoka, Y Miura,Naoyuki Miya, K Miyachi, Yasushi Mori,Shunsuke Moriyama, Michihiro Mutoh,Masayuki Nagami, Atsushi Nagashima,Kenji V P Nagashima, Tomohisa Nagashima,Shigeo Nagaya, O Naitoh,Hiroaki Nakamura,Yusuke Nakamura, M Nemoto,Yuzuru Neyatani, Haruhiko Ninomiya, N Nishino,Takao Nishitani, Kazushige Obara, Hiroyuki Obinata,Yujiro Ogawa,Naoko Ogiwara,Takefumi Ohga,Y Ohara,Kazumi Ohasa, H Oohara, T Ohshima, Michio Ohkubo, Satoshi Ohsawa, Kenichi Ohta,Miki Ohta,Manami Ohtaka, Yutaka Ohuchi,Akira Oikawa,Haruhiko Okumura,Yasuyuki Okumura,Katsunori Omori,Shunzo Omori,Y Omori,Takeshi Ozeki,Makoto Saegusa, N Saitoh, Kazuo Sakamoto, Akira Sakasai,S Sakata,Tomomi Sasajima, Kimitoshi Satou, Masakazu Satou,Akira Sakurai,M Sawahata, T Sebata, Masanori Seimiya,Motoaki Seki,Shuichi Seki, Kiyoshi Shibanuma,Ryuichi Shimada, Teruhisa Shimada, Kei Shimizu, Makoto Shimizu,Yoshikazu Shimomura, S Shinozaki,Hirofusa Shirai, H Shirakata,M Shitomi, Katsuaki Suganuma,Toshihiko Sugie, Toshihiro Sugiyama, Hitoshi Sunaoshi,Keiji Suzuki,Makoto Suzuki, Nobuhiro Suzuki, S Suzuki,Yoshiyuki Suzuki, Masuhiro Takahashi, Satoshi Takahashi,Takashi Takahashi,M Takasaki,Hisato Takatsu,H Takeuchi,Akira Takeshita,T Takizuka, Shigehiko Tamura,Satoshi Tanaka, Tetsuya Tanaka,Kazutoshi Tani,Masaaki Terakado,T Terakado,Kiyotake Tobita,T Tokutake, Tsuyoshi Totsuka, Nobuyasu Toyoshima, F Tusda,T Tsugita,Shoji Tsuji,Yasuo Tsukahara,Makoto Tsuneoka, Kosuke Uehara, M Umechara, Y Uramoto,H Usami,Kenkichi Ushigusa,K Usui, Junichi Yagyu, Mitsuru Yamagiwa, Motohisa Yamamoto, T Yamamoto, Osamu Yamashita,T Yamazaki, Tsutomu Yasukawa, K Yokokura, Hiroshi Yokomizo,Keitaro Yokoyama,Kenichi Yoshikawa,Masahiro Yoshikawa, Hideki Yoshida, R Yoshino, Yasuhide Yoshioka,I Yonekawa, Tomoaki Yoneda,K Watanabe, M G Bell, R J Bickerton, W Englehardt,R J Goldston, E Kallne, J Kallne, H W Jugel, P L Mondiono, F X Solnder, Y Takase, P R Thomas, K L Wong

PLASMA PHYSICS AND CONTROLLED FUSION（1988）

引用 12|浏览41

暂无评分

摘要

From June to October 1987, JT-60 achieved fusion product (ne(0). tau E*.Ti(0)) of 6*1019 m-3.keV.s with hydrogen plasma at plasma current of 2.8 to 3.1 MA with neutral beam power of approximately 20 MW. The central electron density of 1.3*1020 m-3 was obtained at plasma current of 3 MA with 13 approximately 20 MW neutral beam power and the confinement time reached 0.14-0.18 s. An offset linear scaling law like the Shimomura-Odajima scaling on confinement time will be able to reproduce experimental data better than that of the Goldston type scaling. With low beam energy injection approximately 40 keV, confinement degradation was found. Many short periods (0.05 approximately 0.1 s) of H-mode phase were found in outside X-point divertor discharges with NB or NB+RF(LH or IC) heating power above 16 MW. However, improvement in energy confinement time was limited to 10 %. The ballooning/interchange stability analyses were also made for the outside X-point divertor equilibrium in connection with H0-phase capability. Heating powers of 9.5 MW and 1.9 MW were obtained by LHRF, ICRF injection, respectively. In combined LHRF and NB heating, the incremental energy confinement time of 0.064 s was obtained, which is the same level of that of NB heating only. In combined NB and on-axis ICRF heating of low ne discharge, an incremental energy confinement time of 0.21 s was obtained, which is three times as long as those of NB or ICRF heating only. High energy beam ions were accelerated by ICRF in the central region of the plasma.

查看译文

AI 理解论文

溯源树

样例

生成溯源树，研究论文发展脉络

Chat Paper

正在生成论文摘要