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17–22 Oct 2016
Kyoto International Conference Center
Japan timezone

Nonlinear Particle Simulation of Radio Frequency Waves in Tokamak

19 Oct 2016, 14:00
4h 45m
Kyoto International Conference Center

Kyoto International Conference Center

Takaragaike, Sakyo-ku, Kyoto 606-0001 Japan
Poster THW - Magnetic Confinement Theory and Modelling: Wave–plasma interactions; current drive; heating; energetic particles Poster 4

Speaker

Mr Jian Bao (Peking University)

Description

In this work, we present a fully nonlinear electromagnetic particle simulation model for RF wave in the toroidal geometry, which has been successfully implemented in the gyrokinetic toroidal code (GTC). In this electromagnetic simulation model, the ion dynamics is described by 6D Vlasov equation and the electron dynamics is described by 5D drift kinetic equation. The ion cyclotron orbit is integrated by Boris method, which has the advantage of energy conservation with long simulation time duration. Nonlinear particle simulations of radio frequency waves in tokamak have been carried out for the first time with a real electron-to-ion mass ratio. Linear simulation of the lower hybrid (LH) wave-packet in the tokamak shows that the wave propagates faster in the high field side than the low field side, in agreement with a ray tracing calculation. Global electromagnetic simulation confirms that the toroidicity induces an upshift of parallel reflective index when LH waves propagate from the tokamak edge toward the core, which modifies the radial position for the mode conversion between slow and fast LH waves. Furthermore, moving LH antenna launch position from low field side toward high field side leads to larger upshift of the parallel reflective index, which helps the slow LH wave penetration into the tokamak core. The broadening of the poloidal spectrum of the wave-packet due to wave diffraction is also verified in the simulation of the LH wave propagation. Both the upshift and broadening effects of the parallel spectrum of the wavepacket modify the parallel phase velocity and thus the linear absorption of LH waves by electrons Landau resonance. In the nonlinear simulation of ion Bernstein wave (IBW) in a tokamak, parametric decay instability (PDI) is observed where a large amplitude pump wave decays into an IBW sideband and an ion cyclotron quasi-mode (ICQM). The ICQM induces an ion perpendicular heating, with a heating rate proportional to the pump wave intensity. Finally, in the electromagnetic LH simulation, nonlinear wave trapping of electrons is verified and a plasma current is nonlinearly driven.
Country or International Organization People's Republic of China
Paper Number TH/P4-25

Primary author

Mr Jian Bao (Peking University)

Co-authors

Dr Animesh Kuley (UC Irvine) Prof. Wenlu Zhang (Institute of Physics, Chinese Academy of Sciences) Mr Xishuo Wei (Zhejiang University) Prof. Yong Xiao (Institute for Fusion Theory and Simulation) Zhihong Lin (UC Irvine)

Presentation materials