阿尔卡特C-Mod
分流器
物理
热核聚变
等离子体
原子物理学
BETA(编程语言)
焊剂(冶金)
磁聚变
热流密度
聚变能
核物理学
托卡马克
材料科学
机械
传热
冶金
程序设计语言
计算机科学
作者
A. Loarte,J. W. Hughes,M.L. Reinke,J. L. Terry,B. LaBombard,D. Brunner,M. Greenwald,B. Lipschultz,Y. Ma,S.J. Wukitch,S. Wolfe
摘要
Experiments in Alcator C-Mod in (Enhanced D-alpha) EDA H-modes with extrinsic impurity seeding (N2, Ne, and Ar) have demonstrated a direct correlation between plasma energy confinement and edge power flow, achieving values of H98 ≥ 1 for edge power flows only marginally exceeding the scaled power for access to H-mode confinement in these conditions. For lower Z impurity seeding (N2 and Ne), plasmas with high energy confinement are obtained with a radiative power fraction of 85% or larger and a reduction of the peak heat flux at the divertor by more than a factor of 5 compared to similar attached conditions. The H-mode plasmas thus achieved in Alcator C-Mod meet or exceed the requirements both in terms of divertor heat flux handling and energy confinement for ITER QDT = 10 operation and with an edge power flow only marginally above the H-mode threshold power (by 1.0–1.4) as expected in ITER.
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