Recent results from the large helical device

被引：14

作者：

Komori, A ^{[1
]}

Ohyabu, N

Yamada, H

Kaneko, O

Kawahata, K

Ida, K

Nakamura, Y

Akiyama, T

Ashikawa, N

Emoto, M

Funaba, H

Goncharov, P

Goto, M

Idei, H

Ikeda, K

Inagaki, S

Isobe, M

Kawazome, H

Khlopenkov, K

Kobuchi, T

Kostrioukov, A

Kubo, S

Kumazawa, R

Liang, Y

Masuzaki, S

Minami, T

Miyazawa, J

Morisaki, T

Morita, S

Murakami, S

Muto, S

Mutoh, T

Nagayama, Y

Nakanishi, H

Narihara, K

Narushima, Y

Nishimura, K

Noda, N

Notake, T

Nozato, H

Ohdachi, S

Oka, Y

Osakabe, M

Ozaki, T

Peterson, BJ

Sagara, A

Saida, T

Saito, K

Sakakibara, S

Sakamoto, R

机构：

[1] Natl Inst Fus Sci, Toki 5095292, Japan

[2] Tokyo Inst Technol, Res Lab Nucl Reactors, Tokyo 1528550, Japan

[3] Grad Univ Adv Studies, Dept Fus Sci, Sch Math & Phys Sci, Hayama 2400193, Japan

[4] Kyoto Univ, Grad Sch Engn Sci, Kyoto 6110011, Japan

[5] Nagoya Univ, Dept Energy Engn & Sci, Nagoya, Aichi 4648603, Japan

[6] Univ Tokyo, Grad Sch Frontier Sci, Tokyo 1130033, Japan

来源：

PLASMA PHYSICS AND CONTROLLED FUSION | 2003年 / 45卷 / 05期

关键词：

D O I：

10.1088/0741-3335/45/5/311

中图分类号：

O35 [流体力学]; O53 [等离子体物理学];

学科分类号：

070204 ; 080103 ; 080704 ;

摘要：

The most important finding in the Large Helical Device (LHD) experiments so far is that an inward-shifted configuration exhibits good plasma performance with a scaling similar to that of ELMy H-mode tokamaks. The inward-shifted configuration has been predicted to have unfavourable magnetohydrodynamic (MHD) properties, even though it has significantly better particle-orbit properties. However, no serious confinement degradation due to the MHD activities was observed, resolving favourably the potential conflict between stability and confinement. Neoclassical transport loss can be suppressed even in a low-collisionality regime, and in this way the inward-shifted configuration was shown to make the LHD plasma properties favourable. Then, it is very important to realize more improved plasma performance and higher temperature plasmas for extending the plasma-parameter regime in order to obtain data that can be extrapolated to a reactor. In the fifth campaign in 2001-2002, an increase in the heating power achieved an electron temperature T-e of over 10 keV and an ion temperature T-i of 5 keV. A T-e profile, which is characteristic of internal transport barriers, was also observed when the electron cyclotron resonance heating power was highly focused on the centre of the plasma sustained by neutral beam injection.

引用

页码：671 / 686

页数：16

共 38 条

[1] VARIATIONAL FORMULATION OF THE LINEAR MHD STABILITY OF 3D-PLASMAS WITH NONINTERACTING HOT-ELECTRONS [J].

COOPER, WA .

PLASMA PHYSICS AND CONTROLLED FUSION, 1992, 34 (06) :1011-1036

[2] Plasma confinement studies in LHD [J].

Fujiwara, M ;

Yamada, H ;

Ejiri, A ;

Emoto, M ;

Funaba, H ;

Goto, M ;

Ida, K ;

Idei, H ;

Inagaki, S ;

Kado, S ;

Kaneko, O ;

Kawahata, K ;

Kobuchi, T ;

Komori, A ;

Kubo, S ;

Kumazawa, R ;

Masuzaki, S ;

Minami, T ;

Miyazawa, J ;

Morisaki, T ;

Morita, S ;

Murakami, S ;

Muto, S ;

Mutoh, T ;

Nagayama, Y ;

Nakamura, Y ;

Nakanishi, H ;

Narihara, K ;

Nishimura, K ;

Noda, N ;

Ohdachi, S ;

Ohyabu, N ;

Oka, Y ;

Osakabe, M ;

Ozaki, T ;

Peterson, BJ ;

Sagara, A ;

Sakakibara, S ;

Sakamoto, R ;

Sasao, H ;

Sasao, M ;

Sato, K ;

Sato, M ;

Seki, T ;

Shimozuma, T ;

Shoji, M ;

Suzuki, H ;

Takeiri, Y ;

Tanaka, K ;

Toi, K .

NUCLEAR FUSION, 1999, 39 (11Y) :1659-1666

[3] EFFECTS OF NET TOROIDAL CURRENT ON THE MERCIER CRITERION IN THE LARGE HELICAL DEVICE [J].

ICHIGUCHI, K ;

NAKAJIMA, N ;

OKAMOTO, M ;

NAKAMURA, Y ;

WAKATANI, M .

NUCLEAR FUSION, 1993, 33 (03) :481-492

[4] Reduction of ion thermal diffusivity associated with the transition of the radial electric field in neutral-beam-heated plasmas in the large helical device [J].

Ida, K ;

Funaba, H ;

Kado, S ;

Narihara, K ;

Tanaka, K ;

Takeiri, Y ;

Nakamura, Y ;

Ohyabu, N ;

Yamazaki, K ;

Yokoyama, M ;

Murakami, S ;

Ashikawa, N ;

deVries, PC ;

Emoto, M ;

Goto, M ;

Idei, H ;

Ikeda, K ;

Inagaki, S ;

Inoue, N ;

Isobe, M ;

Itoh, K ;

Kaneko, O ;

Kawahata, K ;

Khlopenkov, K ;

Komori, A ;

Kubo, S ;

Kumazawa, R ;

Liang, Y ;

Masuzaki, S ;

Minami, T ;

Miyazawa, J ;

Morisaki, T ;

Morita, S ;

Mutoh, T ;

Muto, S ;

Nagayama, Y ;

Nakanishi, K ;

Nishimura, K ;

Noda, N ;

Notake, T ;

Kobuchi, T ;

Ohdachi, S ;

Ohkubo, K ;

Oka, Y ;

Osakabe, M ;

Ozaki, T ;

Pavlichenko, RO ;

Peterson, BJ ;

Sagara, A ;

Saito, K .

PHYSICAL REVIEW LETTERS, 2001, 86 (23) :5297-5300

[5] Overview of the Large Helical Device project [J].

Iiyoshi, A ;

Komori, A ;

Ejiri, A ;

Emoto, M ;

Funaba, H ;

Goto, M ;

Ida, K ;

Idei, H ;

Inagaki, S ;

Kado, S ;

Kaneko, O ;

Kawahata, K ;

Kobuchi, T ;

Kubo, S ;

Kumazawa, R ;

Masuzaki, S ;

Minami, T ;

Miyazawa, J ;

Morisaki, T ;

Morita, S ;

Murakami, S ;

Muto, S ;

Mutoh, T ;

Nagayama, Y ;

Nakamura, Y ;

Nakanishi, H ;

Narihara, K ;

Nishirnura, K ;

Noda, N ;

Ohdachi, S ;

Ohyabu, N ;

Oka, Y ;

Osakabe, M ;

Ozaki, T ;

Peterson, BJ ;

Sagara, A ;

Sakakibara, S ;

Sakamoto, R ;

Sasao, H ;

Sasao, M ;

Sato, K ;

Sato, M ;

Seki, T ;

Shimozuma, T ;

Shoji, M ;

Suzuki, H ;

Takeiri, Y ;

Tanaka, E ;

Toi, K ;

Tokuzawa, T .

NUCLEAR FUSION, 1999, 39 (9Y) :1245-1256

[6] DESIGN STUDY FOR THE LARGE HELICAL DEVICE [J].

IIYOSHI, A ;

FUJIWARA, M ;

MOTOJIMA, O ;

OHYABU, N ;

YAMAZAKI, K .

FUSION TECHNOLOGY, 1990, 17 (01) :169-187

[7] Charge exchange neutral particle analysis with natural diamond detectors on LHD heliotron [J].

Isobe, M ;

Sasao, M ;

Iiduka, S ;

Krasilnikov, AV ;

Murakami, S ;

Mutoh, T ;

Osakabe, M ;

Sudo, S ;

Kawahata, K ;

Ohyabu, N ;

Motojima, O .

REVIEW OF SCIENTIFIC INSTRUMENTS, 2001, 72 (01) :611-614

[8] Analysis of plasma initiation by neutral beams in the Large Helical Device [J].

Kaneko, O ;

Takeiri, Y ;

Tsumori, K ;

Oka, Y ;

Osakabe, M ;

Ikeda, K .

NUCLEAR FUSION, 2002, 42 (04) :441-447

[9] Improved plasma performance on large helical device [J].

Komori, A ;

Ohyabu, N ;

Yamada, H ;

Kaneko, O ;

Kawahata, K ;

Ashikawa, N ;

deVaries, P ;

Emoto, M ;

Funaba, H ;

Goto, M ;

Ida, K ;

Idei, H ;

Ikeda, K ;

Inagaki, S ;

Inoue, N ;

Isobe, M ;

Kado, S ;

Khlopenkov, K ;

Kobuchi, T ;

Kubo, S ;

Kumazawa, R ;

Liang, Y ;

Masuzaki, S ;

Matsumoto, Y ;

Minami, T ;

Miyazawa, J ;

Morisaki, T ;

Morita, S ;

Murakami, S ;

Muto, S ;

Mutoh, T ;

Nagayama, Y ;

Nakamura, Y ;

Nakanishi, H ;

Narihara, K ;

Narushima, Y ;

Nishimura, K ;

Noda, N ;

Notake, T ;

Ohdachi, S ;

Oka, Y ;

Okamoto, M ;

Osakabe, M ;

Ozaki, T ;

Pavlichenko, RO ;

Peterson, BJ ;

Sagara, A ;

Saito, K ;

Sakakibara, S ;

Sakamoto, R .

PHYSICS OF PLASMAS, 2001, 8 (05) :2002-2008

[10]

Komori A, 1997, P S IAEA, P3

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