Observation of Impurity Accumulation After Hydrogen Multi-Pellet Injection in Large Helical Device

Impurity accumulation is studied for neutral beam-heated discharges after hydrogen multi-pellet injection in Large Helical Device (LHD). Iron density profiles are derived from radial profiles of EUV line emissions of FeXV-XXIV with the help of the collisional-radiative model. A peaked density profile of Fe23+ is simulated by using one-dimensional impurity transport code. The result indicates a large inward velocity of 6 m/s at the impurity accumulation phase. However, the discharge is not entirely affected by the impurity accumulation, since the concentration of iron impurity, estimated to be 3.3x10(-5) to the electron density, is considerably small. On the other hand, a flat profile is observed for the carbon density of C6+, which is derived from the Z(eff) profile, indicating a small inward velocity of 1 m/s. These results suggest atomic number dependence in the impurity accumulation of LHD, which is similar to the tokamak result.