Time: 2014-10-22 14:00:00
Speaker: Hua-sheng XIE [IFTS-ZJU]
Place: Rm. 413, Bld. 11#, Yuquan Campus
Title: Gyrokinetic Simulation of HL-2A H-mode Turbulent Transport
Abstract: Gyrokinetic simulations using GTC code are carried out to study recent HL-2A H-mode experiments (shots #19298, 14048, 14052). In those experiments, both low frequency (LFT) and high frequency (HFT) turbulences are found. The LFT is found to be mainly electrostatic (E.S.) with poloidal mode number m ~ 14-33 and frequency f ~ 25-65 kHz. Meanwhile, the HFT is found to be mainly electromagnetic (E.M.) with poloidal mode number m ~ 16- 38, toroidal mode number n ~ 6-14 and frequency f ~ 100-400 kHz. In the E.S. simulation, a low-frequency unstable mode is found in the electron diamagnetic direction and no unstable mode is found when the electrons are treated adiabatic. Hence, the LFT is identified to be trapped electron mode (TEM). In linear stage, the most unstable mode is found to be n~20 and m~ 50-80. The dominant poloidal mode number will downshift to m~ 15-40 in the nonlinear stage, which is close to the experimental observation. In the E.M. simulation, strong ideal and high frequency kinetic ballooning modes (KBM) are found. To verify the KBM capability of GTC, detailed benchmarks with analytic equilibriums are also shown.