JT-60U latest results and future prospects

H. Ninomiya; H. Akasaka; K. Akiba; M. Akiba; N. Akino; T. Ando; K. Annou; T. Aoyagi; T. Arai; K. Arakawa; M. Araki; N. Asakura; M. Azumi; S. Chiba; M. Dairaku; N. Ebisawa; T. Fujii; T. Fukuda; A. Funahashi; H. Furukawa; H. Gunji; J. C.M. De Haas; K. Hamamatsu; M. Hanada; K. Haraguchi; H. Hiratsuka; T. Hirayama; S. Hiroki; M. Honda; M. Honda; H. Horiike; S. Hoshi; N. Hosogane; D. Humphreys; S. Ide; Y. Ikeda; T. Imai; T. Inoue; N. Isaji; M. Isaka; N. Isei; S. Ishida; K. Itami; N. Ichige; M. Ito; T. Ito; R. Jinbou; Y. Kamada; A. Kaminaga; T. Kashimura; M. Kawai; Y. Kawamata; Y. Kawano; M. Kikuchi; H. Kimura; T. Kimura; H. Kishimoto; S. Kitamura; A. Kitsunezaki; K. Kiyono; K. Kodama; T. Koike; Y. Koide; S. Kogure; M. Komata; I. Kondo; T. Kondo; S. Konoshima; H. Kubo; S. Kunieda; K. Kurihara; M. Kuriyama; M. Kusaka; Y. Kusama; S. Maebara; K. Maeno; T. Matoba; M. Matsukawa; M. Matsuoka; Y. Matsuzaki; S. Miura; Y. Miura; N. Miya; K. Miyachi; K. Miyake; Y. Miyo; M. Mizuno; K. Mogaki; S. Moriyama; Y. Murakami; M. Nagami; A. Nagashima; K. Nagashima; T. Nagashima; S. Nagaya; K. Nagayama; O. Naito; H. Nakamura; T. Nakafuji; N. Nakajima; H. Nemoto; M. Nemoto; Y. Neyatani; T. Nishitani; H. Nobusaka; H. Nomoto; S. Numazawa; K. Odajima; Y. Ogawa; N. Ogiwara; Y. Ohara; T. Ohga; T. Ohshima; M. Ohta; S. Ohuchi; Y. Ohuchi; A. Oikawa; H. Oohara; M. Oozeki; Y. Okumura; K. Omori; S. Omori; Y. Omori; T. Ozeki; M. Saido; M. Saigusa; N. Saito; K. Sakamoto; A. Sakasai; S. Sakata; T. Sakuma; T. Sasajima; N. Sakaki; M. Sato; M. Sato; M. Sawahata; M. Seimiya; M. Seki; S. Seki; K. Shibanuma; M. Shimada; K. Shimizu; M. Shimizu; Y. Shimomura; M. Shimono; S. Shinozaki; H. Shirai; H. Shirakata; M. Shitomi; K. Suganuma; T. Sugie; H. Sunaoshi; N. Suzuki; Y. Suzuki; M. Takahashi; S. Takahashi; T. Takahashi; A. Takasa; M. Takasaki; H. Takatsu; T. Takayasu; H. Takeuchi; A. Takeshita; T. Takizuka; S. Tamura; S. Tanaka; T. Tanaka; Y. Tanaka; K. Tani; T. Tani; M. Terakado; T. Terakado; K. Tobita; T. Totsuka; N. Toyoshima; T. Tsugita; S. Tsuji; Y. Tsukahara; M. Tsuneoka; A. Tsurumi; K. Uehara; S. Uno; Y. Uramoto; H. Usami; K. Ushigusa; K. Usui; M. Yagi; J. Yagyu; K. Yamagishi; M. Yamamoto; T. Yamamoto; O. Yamashita; T. Yamazaki; T. Yasuda; K. Yokokura; H. Yoshida; R. Yoshino; Y. Yoshioka; I. Yonekawa; K. Watanabe; S. W. Wolfe

doi:10.1063/1.860480

JT-60U latest results and future prospects

H. Ninomiya, H. Akasaka, K. Akiba, M. Akiba, N. Akino, T. Ando, K. Annou, T. Aoyagi, T. Arai, K. Arakawa, M. Araki, N. Asakura, M. Azumi, S. Chiba, M. Dairaku, N. Ebisawa, T. Fujii, T. Fukuda, A. Funahashi, H. FurukawaH. Gunji, J. C.M. De Haas, K. Hamamatsu, M. Hanada, K. Haraguchi, H. Hiratsuka, T. Hirayama, S. Hiroki, M. Honda, M. Honda, H. Horiike, S. Hoshi, N. Hosogane, D. Humphreys, S. Ide, Y. Ikeda, T. Imai, T. Inoue, N. Isaji, M. Isaka, N. Isei, S. Ishida, K. Itami, N. Ichige, M. Ito, T. Ito, R. Jinbou, Y. Kamada, A. Kaminaga, T. Kashimura, M. Kawai, Y. Kawamata, Y. Kawano, M. Kikuchi, H. Kimura, T. Kimura, H. Kishimoto, S. Kitamura, A. Kitsunezaki, K. Kiyono, K. Kodama, T. Koike, Y. Koide, S. Kogure, M. Komata, I. Kondo, T. Kondo, S. Konoshima, H. Kubo, S. Kunieda, K. Kurihara, M. Kuriyama, M. Kusaka, Y. Kusama, S. Maebara, K. Maeno, T. Matoba, M. Matsukawa, M. Matsuoka, Y. Matsuzaki, S. Miura, Y. Miura, N. Miya, K. Miyachi, K. Miyake, Y. Miyo, M. Mizuno, K. Mogaki, S. Moriyama, Y. Murakami, M. Nagami, A. Nagashima, K. Nagashima, T. Nagashima, S. Nagaya, K. Nagayama, O. Naito, H. Nakamura, T. Nakafuji, N. Nakajima, H. Nemoto, M. Nemoto, Y. Neyatani, T. Nishitani, H. Nobusaka, H. Nomoto, S. Numazawa, K. Odajima, Y. Ogawa, N. Ogiwara, Y. Ohara, T. Ohga, T. Ohshima, M. Ohta, S. Ohuchi, Y. Ohuchi, A. Oikawa, H. Oohara, M. Oozeki, Y. Okumura, K. Omori, S. Omori, Y. Omori, T. Ozeki, M. Saido, M. Saigusa, N. Saito, K. Sakamoto, A. Sakasai, S. Sakata, T. Sakuma, T. Sasajima, N. Sakaki, M. Sato, M. Sato, M. Sawahata, M. Seimiya, M. Seki, S. Seki, K. Shibanuma, M. Shimada, K. Shimizu, M. Shimizu, Y. Shimomura, M. Shimono, S. Shinozaki, H. Shirai, H. Shirakata, M. Shitomi, K. Suganuma, T. Sugie, H. Sunaoshi, N. Suzuki, Y. Suzuki, M. Takahashi, S. Takahashi, T. Takahashi, A. Takasa, M. Takasaki, H. Takatsu, T. Takayasu, H. Takeuchi, A. Takeshita, T. Takizuka, S. Tamura, S. Tanaka, T. Tanaka, Y. Tanaka, K. Tani, T. Tani, M. Terakado, T. Terakado, K. Tobita, T. Totsuka, N. Toyoshima, T. Tsugita, S. Tsuji, Y. Tsukahara, M. Tsuneoka, A. Tsurumi, K. Uehara, S. Uno, Y. Uramoto, H. Usami, K. Ushigusa, K. Usui, M. Yagi, J. Yagyu, K. Yamagishi, M. Yamamoto, T. Yamamoto, O. Yamashita, T. Yamazaki, T. Yasuda, K. Yokokura, H. Yoshida, R. Yoshino, Y. Yoshioka, I. Yonekawa, K. Watanabe, S. W. Wolfe

研究成果: Article › 査読

52 被引用数 (Scopus)

抄録

Experimental results achieved in the initial operation of JT-60U [Plasma Devices Operat. 1, 43 (1990)] are described in this paper. Experiments of JT-60U were initiated in March and deuterium experiments started in the middle of July. Multivariable noninteracting control was adopted to allow independent control despite the strong mutual coupling between the Ohmic heating coils and the vertical field coils. Well-controlled divertor discharges were successfully obtained using this method and discharges with plasma current up to 5 MA were achieved. In neutral beam heating experiments with P_NBI≲22 MW, plasma stored energies W_dia of up to 4.8 MJ were obtained for 4 MA discharges. The high-β_p regime with hot ions and enhanced confinement was investigated. The maximum β_p reached 2.3, the maximum T_i of 20 keV was achieved and τ_E was improved to about 2.7 times as large as that of ITER89-P scaling [Nucl. Fusion 30, 1999 (1990)]. The maximum neutron rate of 1.3×10¹⁶ n/sec was also obtained hi the highest-^βp discharge. The corresponding Q _DD and the equivalent Q_DT were 8.9×10_-4 and ∼0.20, respectively. Localized heat load in both toroidal and poloidal directions was clearly identified as ripple loss, and this was the first measurement of heat load mainly due to ripple trapped loss consistent with calculated results. Divertor plasma profiles measured with Langmuir probes show significant in-out asymmetry.

本文言語	English
ページ（範囲）	2070-2080
ページ数	11
ジャーナル	Physics of Fluids B
巻	4
号	7
DOI	https://doi.org/10.1063/1.860480
出版ステータス	Published - 1992
外部発表	はい

ASJC Scopus subject areas

計算力学
凝縮系物理学
材料力学
物理学および天文学（全般）
流体および伝熱

文献へのアクセス

10.1063/1.860480

他のファイルとリンク

引用スタイル

Ninomiya, H, Akasaka, H, Akiba, K, Akiba, M, Akino, N, Ando, T, Annou, K, Aoyagi, T, Arai, T, Arakawa, K, Araki, M, Asakura, N, Azumi, M, Chiba, S, Dairaku, M, Ebisawa, N, Fujii, T, Fukuda, T, Funahashi, A, Furukawa, H, Gunji, H, De Haas, JCM, Hamamatsu, K, Hanada, M, Haraguchi, K, Hiratsuka, H, Hirayama, T, Hiroki, S, Honda, M, Honda, M, Horiike, H, Hoshi, S, Hosogane, N, Humphreys, D, Ide, S, Ikeda, Y, Imai, T, Inoue, T, Isaji, N, Isaka, M, Isei, N, Ishida, S, Itami, K, Ichige, N, Ito, M, Ito, T, Jinbou, R, Kamada, Y, Kaminaga, A, Kashimura, T, Kawai, M, Kawamata, Y, Kawano, Y, Kikuchi, M, Kimura, H, Kimura, T, Kishimoto, H, Kitamura, S, Kitsunezaki, A, Kiyono, K, Kodama, K, Koike, T, Koide, Y, Kogure, S, Komata, M, Kondo, I, Kondo, T, Konoshima, S, Kubo, H, Kunieda, S, Kurihara, K, Kuriyama, M, Kusaka, M, Kusama, Y, Maebara, S, Maeno, K, Matoba, T, Matsukawa, M, Matsuoka, M, Matsuzaki, Y, Miura, S, Miura, Y, Miya, N, Miyachi, K, Miyake, K, Miyo, Y, Mizuno, M, Mogaki, K, Moriyama, S, Murakami, Y, Nagami, M, Nagashima, A, Nagashima, K, Nagashima, T, Nagaya, S, Nagayama, K, Naito, O, Nakamura, H, Nakafuji, T, Nakajima, N, Nemoto, H, Nemoto, M, Neyatani, Y, Nishitani, T, Nobusaka, H, Nomoto, H, Numazawa, S, Odajima, K, Ogawa, Y, Ogiwara, N, Ohara, Y, Ohga, T, Ohshima, T, Ohta, M, Ohuchi, S, Ohuchi, Y, Oikawa, A, Oohara, H, Oozeki, M, Okumura, Y, Omori, K, Omori, S, Omori, Y, Ozeki, T, Saido, M, Saigusa, M, Saito, N, Sakamoto, K, Sakasai, A, Sakata, S, Sakuma, T, Sasajima, T, Sakaki, N, Sato, M, Sato, M, Sawahata, M, Seimiya, M, Seki, M, Seki, S, Shibanuma, K, Shimada, M, Shimizu, K, Shimizu, M, Shimomura, Y, Shimono, M, Shinozaki, S, Shirai, H, Shirakata, H, Shitomi, M, Suganuma, K, Sugie, T, Sunaoshi, H, Suzuki, N, Suzuki, Y, Takahashi, M, Takahashi, S, Takahashi, T, Takasa, A, Takasaki, M, Takatsu, H, Takayasu, T, Takeuchi, H, Takeshita, A, Takizuka, T, Tamura, S, Tanaka, S, Tanaka, T, Tanaka, Y, Tani, K, Tani, T, Terakado, M, Terakado, T, Tobita, K, Totsuka, T, Toyoshima, N, Tsugita, T, Tsuji, S, Tsukahara, Y, Tsuneoka, M, Tsurumi, A, Uehara, K, Uno, S, Uramoto, Y, Usami, H, Ushigusa, K, Usui, K, Yagi, M, Yagyu, J, Yamagishi, K, Yamamoto, M, Yamamoto, T, Yamashita, O, Yamazaki, T, Yasuda, T, Yokokura, K, Yoshida, H, Yoshino, R, Yoshioka, Y, Yonekawa, I, Watanabe, K & Wolfe, SW 1992, 'JT-60U latest results and future prospects', Physics of Fluids B, vol. 4, no. 7, pp. 2070-2080. https://doi.org/10.1063/1.860480

@article{9081a7de4eec44a781222c18ab0f6623,

title = "JT-60U latest results and future prospects",

abstract = "Experimental results achieved in the initial operation of JT-60U [Plasma Devices Operat. 1, 43 (1990)] are described in this paper. Experiments of JT-60U were initiated in March and deuterium experiments started in the middle of July. Multivariable noninteracting control was adopted to allow independent control despite the strong mutual coupling between the Ohmic heating coils and the vertical field coils. Well-controlled divertor discharges were successfully obtained using this method and discharges with plasma current up to 5 MA were achieved. In neutral beam heating experiments with PNBI≲22 MW, plasma stored energies Wdia of up to 4.8 MJ were obtained for 4 MA discharges. The high-βp regime with hot ions and enhanced confinement was investigated. The maximum βp reached 2.3, the maximum Ti of 20 keV was achieved and τE was improved to about 2.7 times as large as that of ITER89-P scaling [Nucl. Fusion 30, 1999 (1990)]. The maximum neutron rate of 1.3×1016 n/sec was also obtained hi the highest-βp discharge. The corresponding Q DD and the equivalent QDT were 8.9×10-4 and ∼0.20, respectively. Localized heat load in both toroidal and poloidal directions was clearly identified as ripple loss, and this was the first measurement of heat load mainly due to ripple trapped loss consistent with calculated results. Divertor plasma profiles measured with Langmuir probes show significant in-out asymmetry.",

author = "H. Ninomiya and H. Akasaka and K. Akiba and M. Akiba and N. Akino and T. Ando and K. Annou and T. Aoyagi and T. Arai and K. Arakawa and M. Araki and N. Asakura and M. Azumi and S. Chiba and M. Dairaku and N. Ebisawa and T. Fujii and T. Fukuda and A. Funahashi and H. Furukawa and H. Gunji and {De Haas}, {J. C.M.} and K. Hamamatsu and M. Hanada and K. Haraguchi and H. Hiratsuka and T. Hirayama and S. Hiroki and M. Honda and M. Honda and H. Horiike and S. Hoshi and N. Hosogane and D. Humphreys and S. Ide and Y. Ikeda and T. Imai and T. Inoue and N. Isaji and M. Isaka and N. Isei and S. Ishida and K. Itami and N. Ichige and M. Ito and T. Ito and R. Jinbou and Y. Kamada and A. Kaminaga and T. Kashimura and M. Kawai and Y. Kawamata and Y. Kawano and M. Kikuchi and H. Kimura and T. Kimura and H. Kishimoto and S. Kitamura and A. Kitsunezaki and K. Kiyono and K. Kodama and T. Koike and Y. Koide and S. Kogure and M. Komata and I. Kondo and T. Kondo and S. Konoshima and H. Kubo and S. Kunieda and K. Kurihara and M. Kuriyama and M. Kusaka and Y. Kusama and S. Maebara and K. Maeno and T. Matoba and M. Matsukawa and M. Matsuoka and Y. Matsuzaki and S. Miura and Y. Miura and N. Miya and K. Miyachi and K. Miyake and Y. Miyo and M. Mizuno and K. Mogaki and S. Moriyama and Y. Murakami and M. Nagami and A. Nagashima and K. Nagashima and T. Nagashima and S. Nagaya and K. Nagayama and O. Naito and H. Nakamura and T. Nakafuji and N. Nakajima and H. Nemoto and M. Nemoto and Y. Neyatani and T. Nishitani and H. Nobusaka and H. Nomoto and S. Numazawa and K. Odajima and Y. Ogawa and N. Ogiwara and Y. Ohara and T. Ohga and T. Ohshima and M. Ohta and S. Ohuchi and Y. Ohuchi and A. Oikawa and H. Oohara and M. Oozeki and Y. Okumura and K. Omori and S. Omori and Y. Omori and T. Ozeki and M. Saido and M. Saigusa and N. Saito and K. Sakamoto and A. Sakasai and S. Sakata and T. Sakuma and T. Sasajima and N. Sakaki and M. Sato and M. Sato and M. Sawahata and M. Seimiya and M. Seki and S. Seki and K. Shibanuma and M. Shimada and K. Shimizu and M. Shimizu and Y. Shimomura and M. Shimono and S. Shinozaki and H. Shirai and H. Shirakata and M. Shitomi and K. Suganuma and T. Sugie and H. Sunaoshi and N. Suzuki and Y. Suzuki and M. Takahashi and S. Takahashi and T. Takahashi and A. Takasa and M. Takasaki and H. Takatsu and T. Takayasu and H. Takeuchi and A. Takeshita and T. Takizuka and S. Tamura and S. Tanaka and T. Tanaka and Y. Tanaka and K. Tani and T. Tani and M. Terakado and T. Terakado and K. Tobita and T. Totsuka and N. Toyoshima and T. Tsugita and S. Tsuji and Y. Tsukahara and M. Tsuneoka and A. Tsurumi and K. Uehara and S. Uno and Y. Uramoto and H. Usami and K. Ushigusa and K. Usui and M. Yagi and J. Yagyu and K. Yamagishi and M. Yamamoto and T. Yamamoto and O. Yamashita and T. Yamazaki and T. Yasuda and K. Yokokura and H. Yoshida and R. Yoshino and Y. Yoshioka and I. Yonekawa and K. Watanabe and Wolfe, {S. W.}",

year = "1992",

doi = "10.1063/1.860480",

language = "English",

volume = "4",

pages = "2070--2080",

journal = "Physics of Fluids B",

issn = "0899-8221",

publisher = "American Institute of Physics Publising LLC",

number = "7",

}

TY - JOUR

T1 - JT-60U latest results and future prospects

AU - Ninomiya, H.

AU - Akasaka, H.

AU - Akiba, K.

AU - Akiba, M.

AU - Akino, N.

AU - Ando, T.

AU - Annou, K.

AU - Aoyagi, T.

AU - Arai, T.

AU - Arakawa, K.

AU - Araki, M.

AU - Asakura, N.

AU - Azumi, M.

AU - Chiba, S.

AU - Dairaku, M.

AU - Ebisawa, N.

AU - Fujii, T.

AU - Fukuda, T.

AU - Funahashi, A.

AU - Furukawa, H.

AU - Gunji, H.

AU - De Haas, J. C.M.

AU - Hamamatsu, K.

AU - Hanada, M.

AU - Haraguchi, K.

AU - Hiratsuka, H.

AU - Hirayama, T.

AU - Hiroki, S.

AU - Honda, M.

AU - Horiike, H.

AU - Hoshi, S.

AU - Hosogane, N.

AU - Humphreys, D.

AU - Ide, S.

AU - Ikeda, Y.

AU - Imai, T.

AU - Inoue, T.

AU - Isaji, N.

AU - Isaka, M.

AU - Isei, N.

AU - Ishida, S.

AU - Itami, K.

AU - Ichige, N.

AU - Ito, M.

AU - Ito, T.

AU - Jinbou, R.

AU - Kamada, Y.

AU - Kaminaga, A.

AU - Kashimura, T.

AU - Kawai, M.

AU - Kawamata, Y.

AU - Kawano, Y.

AU - Kikuchi, M.

AU - Kimura, H.

AU - Kimura, T.

AU - Kishimoto, H.

AU - Kitamura, S.

AU - Kitsunezaki, A.

AU - Kiyono, K.

AU - Kodama, K.

AU - Koike, T.

AU - Koide, Y.

AU - Kogure, S.

AU - Komata, M.

AU - Kondo, I.

AU - Kondo, T.

AU - Konoshima, S.

AU - Kubo, H.

AU - Kunieda, S.

AU - Kurihara, K.

AU - Kuriyama, M.

AU - Kusaka, M.

AU - Kusama, Y.

AU - Maebara, S.

AU - Maeno, K.

AU - Matoba, T.

AU - Matsukawa, M.

AU - Matsuoka, M.

AU - Matsuzaki, Y.

AU - Miura, S.

AU - Miura, Y.

AU - Miya, N.

AU - Miyachi, K.

AU - Miyake, K.

AU - Miyo, Y.

AU - Mizuno, M.

AU - Mogaki, K.

AU - Moriyama, S.

AU - Murakami, Y.

AU - Nagami, M.

AU - Nagashima, A.

AU - Nagashima, K.

AU - Nagashima, T.

AU - Nagaya, S.

AU - Nagayama, K.

AU - Naito, O.

AU - Nakamura, H.

AU - Nakafuji, T.

AU - Nakajima, N.

AU - Nemoto, H.

AU - Nemoto, M.

AU - Neyatani, Y.

AU - Nishitani, T.

AU - Nobusaka, H.

AU - Nomoto, H.

AU - Numazawa, S.

AU - Odajima, K.

AU - Ogawa, Y.

AU - Ogiwara, N.

AU - Ohara, Y.

AU - Ohga, T.

AU - Ohshima, T.

AU - Ohta, M.

AU - Ohuchi, S.

AU - Ohuchi, Y.

AU - Oikawa, A.

AU - Oohara, H.

AU - Oozeki, M.

AU - Okumura, Y.

AU - Omori, K.

AU - Omori, S.

AU - Omori, Y.

AU - Ozeki, T.

AU - Saido, M.

AU - Saigusa, M.

AU - Saito, N.

AU - Sakamoto, K.

AU - Sakasai, A.

AU - Sakata, S.

AU - Sakuma, T.

AU - Sasajima, T.

AU - Sakaki, N.

AU - Sato, M.

AU - Sawahata, M.

AU - Seimiya, M.

AU - Seki, M.

AU - Seki, S.

AU - Shibanuma, K.

AU - Shimada, M.

AU - Shimizu, K.

AU - Shimizu, M.

AU - Shimomura, Y.

AU - Shimono, M.

AU - Shinozaki, S.

AU - Shirai, H.

AU - Shirakata, H.

AU - Shitomi, M.

AU - Suganuma, K.

AU - Sugie, T.

AU - Sunaoshi, H.

AU - Suzuki, N.

AU - Suzuki, Y.

AU - Takahashi, M.

AU - Takahashi, S.

AU - Takahashi, T.

AU - Takasa, A.

AU - Takasaki, M.

AU - Takatsu, H.

AU - Takayasu, T.

AU - Takeuchi, H.

AU - Takeshita, A.

AU - Takizuka, T.

AU - Tamura, S.

AU - Tanaka, S.

AU - Tanaka, T.

AU - Tanaka, Y.

AU - Tani, K.

AU - Tani, T.

AU - Terakado, M.

AU - Terakado, T.

AU - Tobita, K.

AU - Totsuka, T.

AU - Toyoshima, N.

AU - Tsugita, T.

AU - Tsuji, S.

AU - Tsukahara, Y.

AU - Tsuneoka, M.

AU - Tsurumi, A.

AU - Uehara, K.

AU - Uno, S.

AU - Uramoto, Y.

AU - Usami, H.

AU - Ushigusa, K.

AU - Usui, K.

AU - Yagi, M.

AU - Yagyu, J.

AU - Yamagishi, K.

AU - Yamamoto, M.

AU - Yamamoto, T.

AU - Yamashita, O.

AU - Yamazaki, T.

AU - Yasuda, T.

AU - Yokokura, K.

AU - Yoshida, H.

AU - Yoshino, R.

AU - Yoshioka, Y.

AU - Yonekawa, I.

AU - Watanabe, K.

AU - Wolfe, S. W.

PY - 1992

Y1 - 1992

N2 - Experimental results achieved in the initial operation of JT-60U [Plasma Devices Operat. 1, 43 (1990)] are described in this paper. Experiments of JT-60U were initiated in March and deuterium experiments started in the middle of July. Multivariable noninteracting control was adopted to allow independent control despite the strong mutual coupling between the Ohmic heating coils and the vertical field coils. Well-controlled divertor discharges were successfully obtained using this method and discharges with plasma current up to 5 MA were achieved. In neutral beam heating experiments with PNBI≲22 MW, plasma stored energies Wdia of up to 4.8 MJ were obtained for 4 MA discharges. The high-βp regime with hot ions and enhanced confinement was investigated. The maximum βp reached 2.3, the maximum Ti of 20 keV was achieved and τE was improved to about 2.7 times as large as that of ITER89-P scaling [Nucl. Fusion 30, 1999 (1990)]. The maximum neutron rate of 1.3×1016 n/sec was also obtained hi the highest-βp discharge. The corresponding Q DD and the equivalent QDT were 8.9×10-4 and ∼0.20, respectively. Localized heat load in both toroidal and poloidal directions was clearly identified as ripple loss, and this was the first measurement of heat load mainly due to ripple trapped loss consistent with calculated results. Divertor plasma profiles measured with Langmuir probes show significant in-out asymmetry.

AB - Experimental results achieved in the initial operation of JT-60U [Plasma Devices Operat. 1, 43 (1990)] are described in this paper. Experiments of JT-60U were initiated in March and deuterium experiments started in the middle of July. Multivariable noninteracting control was adopted to allow independent control despite the strong mutual coupling between the Ohmic heating coils and the vertical field coils. Well-controlled divertor discharges were successfully obtained using this method and discharges with plasma current up to 5 MA were achieved. In neutral beam heating experiments with PNBI≲22 MW, plasma stored energies Wdia of up to 4.8 MJ were obtained for 4 MA discharges. The high-βp regime with hot ions and enhanced confinement was investigated. The maximum βp reached 2.3, the maximum Ti of 20 keV was achieved and τE was improved to about 2.7 times as large as that of ITER89-P scaling [Nucl. Fusion 30, 1999 (1990)]. The maximum neutron rate of 1.3×1016 n/sec was also obtained hi the highest-βp discharge. The corresponding Q DD and the equivalent QDT were 8.9×10-4 and ∼0.20, respectively. Localized heat load in both toroidal and poloidal directions was clearly identified as ripple loss, and this was the first measurement of heat load mainly due to ripple trapped loss consistent with calculated results. Divertor plasma profiles measured with Langmuir probes show significant in-out asymmetry.

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U2 - 10.1063/1.860480

DO - 10.1063/1.860480

M3 - Article

AN - SCOPUS:0000161546

SN - 0899-8221

VL - 4

SP - 2070

EP - 2080

JO - Physics of Fluids B

JF - Physics of Fluids B

IS - 7

ER -

JT-60U latest results and future prospects

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