Observation of Magnetic Dipole Forbidden Transitions in LHD and Its Application to Burning Plasma Diagnostics
Magnetic dipole forbidden (Ml) transition was studied in large helical device (LHD) and F-, Si-and Ti-like Ml transitions are successfully observed for highly ionized Ar, Kr, Mo and Xe ions. The wavelengths measured in visible range for the heavy elements, which are carefully determined with extremely small uncertainties of 0.02~0.05 A as a standard wavelength of usual electric dipole (E1) plasma emissions, are compared with theoretical predictions. The result shows a good agreement with recent HatreeFock calculation including semi-empirical adjustment. The Ml intensity for the F-like ions is examined by analyzing the intensity ratio of M1 to E1.Density dependence of the ratio is experimentally verified by comparing with collisional-radiative model calculation on level population. The M1/E1 line ratio for the F-like ions is applied to the α (He2+) particle diagnostics in ITER, in which a steady-state operation of burning plasmas based on D-T fusion reaction is expected with a particle heating. Unfortunately, the present estimation suggests a negative result for the a particle measurement because the ratio is largely enhanced by the collisional excitation with bulk ions due to high ion temperature of ITER of 10 keV as assumed and the resultant effect of the collisional excitation with α particles becomes less. Meanwhile, the Ml transition, in particular, Ti-like WLIII (W52+) transition (3627 A) emitted in visible range, is very useful for diagnostics of the impurity behavior and the core plasma parameters in ITER.
magnetic dipole transition a particle ITER
Shigeru MORITA Motoshi OTO Ryuji KATAI Chunfeng DONG Hiroyuki SAKAUE Hangyu ZHOU
National Institute for Fusion Science, Toki 509-5292, Gifu, Japan Institute of Laser Engineering, Osaka University, Osaka 565-0871, Japan Graduate University for Advanced Studies, Toki 509-5292, Gifu, Japan
国际会议
西安
英文
341-347
2009-10-26(万方平台首次上网日期,不代表论文的发表时间)