Reduced transport andErshearing in improved confinement regimes in JT-60U

Abstract

The global confinement and the local transport properties of improved core confinement plasmas in JT-60U were studied in connection with E_r shear formation. In the improved core confinement mode with internal transport barriers (ITBs), these are roughly classified into `parabolic type' ITBs and `box type' ITBs. The parabolic type ITB has a reduced thermal diffusivity χ in the core region; however, the E_r shear, dE_r/dr, is not as strong. The box type ITB has a very strong E_r shear at the thin ITB layer and χ decreases to the level of neoclassical transport there. The estimated E × B shearing rate, ω_{E × B}, becomes almost the same as the linear growth rate of the drift microinstability, γ_L, at the ITB layer in the box type ITB. Experiments with hot ion mode plasmas during the repetitive L-H-L transition showed that the thermal diffusivity clearly depends on the E_r shear and the strong E_r shear contributes to the reduced thermal diffusivity.