Optimization of helicon wave current drive in HL-2M tokamak

Helicon waves have been proposed for efcient of-axis current drive in high-performance tokamaks. The HL-2M tokamak will be operated with high plasma beta approaching to 훽N ∼ 4.0%, which provides a good platform to apply helicon wave system in the machine. Based on the helicon wave dispersion relation, efects of electron Landau damping and transit time magnetic pumping on wave absorption are analyzed according to the HL-2M plasma, and then, an optimized scheme of helicon wave parameter is proposed. The evolution of helicon wave electric feld and produced current drive are calculated by the AORSA full-wave code. It shows that current drive efciency of 100 kA/MW can be generally received in the machine. Moreover, the AORSA results are actively benchmarked with the ray-tracing code, and the results show a good consistency. Finally, the numerical convergence and the consumption of computation resources on grid point numbers in AORSA code are discussed.