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Liu Hong Bo,Li Xin Xia,Xiao Zheng Yao,Zhang Ding Zong,Sun Ai Ping 한국물리학회 2021 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.79 No.12
The helicon wave heating and current drive in the HL-2M tokamak for the steady-state scenario is studied numerically. Based on the theory of fast wave current drive proposed by Chiu, we analyze the characteristics of helicon waves damping for the HL-2M tokamak. For wave frequencies larger than 420 MHz, strong wave damping occurs, and electron Landau damping is dominant. Moreover, a strong wave absorption region associated with the dimensionless parameters βe and ξe that depend on the wave frequency is obtained. The helicon wave propagation and current drive are simulated using the GENRAY/CQL3D code. The results show that an off-axis current drive with profiles peak at ρ ∼ 0.4 can be generally received at a wave frequency f ∼ 500 MHz and the launched parallel refractive index n∕∕ = 3.8 and that the current drive efficiency reaches up to ∼140 kA/MW. A scan of n∕∕ showed that both the current drive profile peak and the generated current could be adjusted by changing the launched n∕∕ . Finally, a feasible scheme for the helicon wave off-axis current drive in the HL-2M tokamak is proposed.