Investigation of the Energy Confinement in Ohmic and LHCD Plasmas in HT-7

被引：0

作者：

张晓卿 ^{[1
]}

万宝年 ^{[2
]}

沈飙 ^{[2
]}

胡希伟 ^{[3
]}

钱金平 ^{[2
]}

范恒玉 ^{[2
]}

丁永华 ^{[2
]}

机构：

[1] Institute of Plasma Physics, Chinese Academy of Sciences, Hefei , China Huazhong University of Science and Technology, Wuhan , China

[2] Institute of Plasma Physics, Chinese Academy of Sciences, Hefei , China

[3] Huazhong University of Science and Technology, Wuhan , China

来源：

Plasma Science and Technology | 2006年 / 02期

关键词：

tokamak; confinement; scaling; lower hybrid current drive;

D O I：

暂无

中图分类号：

O53 [等离子体物理学];

学科分类号：

070204 ;

摘要：

<正> Investigation of the energy confinement in ohmic and lower hybrid current drive （LHCD） plasmas in HT-7 has been performed. In ohmic discharges at low densities the global energy confinement time TE increases almost linearly with the density, saturates at a critical density (2.5×1013/cm3 for HT-7) and is nearly constant at higher densities. The energy confinement time is in good agreement with the Neo-Alcator scaling law at different densities and currents. In the LHCD plasmas the global energy confinement time similar to that of the L-mode discharges has been observed to be in good agreement with the low confinement mode （L mode） scaling law of ITER89-P in higher electron density and plasma current.

引用

页码：141 / 146

页数：6

共 18 条

[1]

Knowlton S,Porkolab M,Takase Y, et al. Physical Review Letters . 1986

[2]

Robert J Goldston. Plasma Physics and Controlled Fusion . 1984

[3]

Ushigusa K,Imai T,Naito O, et al. Nuclear Fsion . 1990

[4]

Shafranov V D. Plant Physiology . 1971

[5] NUCLEAR FUSION [P].

OFUKU EIJI .

日本专利 :JPH02285283A ,1990-11-22

[6]

Gruber O. Nuclear Fusion . 1982

[7]

Yushmanov P N,Takizuka T,Riedel K S, et al. Nuclear Fusion . 1999

[8]

Shen B,Wan B N,Zhang X Q. Fusion Engineering . 2004

[9]

Dominguez R R,Waltz R E. Nuclear Fusion . 1987

[10]

Parker R R,Greenwald M,Luckhardt S C, et al. Nuclear Fusion . 1985

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