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Author(s):
Y. Todo, T. Sato, K. Watanabe, T.H. Watanabe and R. Horiuchi
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Title:
MHD-Vlasov Simulation of the Toroidal Alfven Eigenmode
Date of publication:
Nov. 1994
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Key words:
toroidal Alfven eigenmode, alpha particles, MHD-Vlasov simulation, nonlinear Landau damping, particle trapping
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Abstract:
A new simulation method has been developed to investigate the excitation and saturation processes of toroidal Alfven eigenmodes (TAE modes). The background plasma is described by a full-MHD fluid model, while the kinetic evolution of energetic alpha particles is followed by the drift kinetic equation. The magnetic fluctuation of n=2 mode develops and saturates at the level of 1.8 x 10^-3 of the equilibrium field when the initial beta of alpha particles is 2% at the magnetic axis. After saturation, the TAE mode amplitude shows an oscillatory behavior with a frequency corresponding to the bounce frequency of the alpha particles trapped by the TAE mode. The decrease of the power transfer rate from the alpha particles to the TAE mode, which is due to the trapped particle effect of a finite-amplitude wave, causes the saturation. From the linear growth rate the saturation level can be estimated.
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