DIII-D公司
托卡马克
等离子体
磁流体驱动
原子物理学
氘
物理
聚变能
大气压等离子体
融合
不稳定性
安全系数
等离子体稳定性
磁聚变
材料科学
磁流体力学
核物理学
机械
语言学
哲学
作者
E. A. Lazarus,G.A. Navratil,C. M. Greenfield,E. J. Strait,M. E. Austin,K.H. Burrell,T.A. Casper,D. R. Baker,J. C. DeBoo,E. J. Doyle,R. Durst,J. R. Ferron,C. B. Forest,P. Gohil,R. J. Groebner,W. W. Heidbrink,R.‐M. Hong,W. A. Houlberg,A. W. Howald,C. L. Hsieh
标识
DOI:10.1103/physrevlett.77.2714
摘要
Fusion power has been increased by a factor of 3 in DIII-D by tailoring the pressure profile to avoid the kink instability in H-mode plasmas. The resulting plasmas are found to have neoclassical ion confinement. This reduction in transport losses in beam-heated plasmas with negative central shear is correlated with a dramatic reduction in density fluctuations. Improved magnetohydrodynamic stability is achieved by controlling the plasma pressure profile width. In deuterium plasmas the highest gain Q (the ratio of fusion power to input power), was 0.0015, corresponding to an equivalent Q of 0.32 in a deuterium-tritium plasma. © 1996 The American Physical Society.
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