Experimental progress of hybrid operational scenario on EAST tokamak

Extensive experiments of advanced scenario development, which contribute to the ITER hybrid operational scenario have been carried out on experimental advanced superconducting tokamak (EAST) tokamak recently with the ITER-like tungsten divertor. The beta(N) in this operational scenario is intermediate up to 2.1 (EAST#78987, beta(N) similar to 2.1, I-p similar to 0.45 MA, q(95) = 3.7, B-T similar to 1.5 T, 3 MW neutron beam injection and 1 MW 4.6 GHz lower hybrid wave). In these hybrid H-mode plasmas, the internal transport barrier (ITB) has been frequently observed with central flatqprofile and it is found that the fishbone mode (m/n= 1/1) can be beneficial to sustain the central flat (q(0) similar to 1)qprofile, thus a stable ITB can be obtained. In this case, better plasma performance is achieved. The formation of the ITB of the electron density is related to the fishbone activities. Energy transport analysis shows that the fishbone instabilities have a suppression on electron turbulent energy transport, while the ITB of ion temperature is due to the suppression of high-k modes (electron temperature gradient). The mechanism of turbulence suppression from fishbone instabilities in the EAST tokamak is not clear and needs more investigation. It is also observed that the power threshold for ITB formation is >= 3.5 MW, which is consistent with the scaling law for other tokamaks. The dimensionless parameter G (= H-89 beta(N)/q(95)(2)) obtained in the EAST reaches 0.3, but is still lower than the ITER hybrid scenario design (G >= 0.4) and needs more extension. Further investigation of extending the operational regimes, such as expanding the ITB foot outwards, would be important for the development of the hybrid and steady-state scenarios for next-step fusion devices like ITER and CFETR.