Thermal energy confinement properties of ELMy H mode plasmas in JT-60U

Abstract

The dominant causes of the reduction in the enhancement factor of thermal energy confinement with increasing plasma density in ELMy H mode plasmas in JT-60U were analysed by separating the thermal stored energy into core and pedestal components. The enhancement factor of the core confinement evaluated by the offset non-linear scaling which was developed in the ITER H mode confinement database decreased significantly with increasing density, while the pedestal component remained almost constant over a wide range of density. The influence of the edge pedestal structure imposed by the destabilization of type I ELMs on thermal energy confinement of the core plasma was also quantitatively clarified. As the density increased, the saturation of the pressure at the pedestal shoulder, p_ped, caused by the type I ELM activities forced a reduction in the pedestal temperature. The core temperature for each species, in turn, decreased only by an approximately constant factor with a reduction in the pedestal temperature, resulting in the saturation of the thermal stored energy in the high density regime.