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arxiv 2304.08416 v1 pith:A3GOEKZ4 submitted 2023-04-17 physics.plasm-ph

Simulation of the TAEs saturation phase in Large Helical Device device: MHD burst

classification physics.plasm-ph
keywords plasmataesburstenergylargenonlinearthermaldecrease
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The aim of the present study is to analyze the saturation regime of the Toroidal Alfven Eigenmodes (TAE) in the LHD plasma, particularly the MHD burst. The linear and nonlinear evolution of the TAEs are simulated by the FAR3d code that uses a reduced MHD model for the thermal plasma coupled with a gyrofluid model for the energetic particles (EP) species. The linear simulations indicate the overlapping of 1/2-1/1, 2/3-2/4 and 3/5-3/6 TAEs in the inner-middle plasma region and frequency range of 45-75 kHz, triggered by EPs with an energy of Tf = 45 keV and EP beta = 0.022. The nonlinear simulations show that 2/3-2/4 and 3/4-3/5 TAEs are further destabilized due to the energy transfer from 1/1-1/2 TAE, leading to a broad TAEs radial overlapping and the MHD burst triggering. The energy of 1/1-1/2 TAE is also nonlinearly transferred to the thermal plasma destabilizing the 0/0 and 0/1 modes, inducing the generation of shear flows and zonal currents as well as large deformations in the thermal pressure and EP density radial profiles. The nonlinear simulation reproduces the same succession of instabilities and the same frequency range with respect to the experiment. The instability propagates outward during the bursting phase, showing a large decrease of the EP density profile between the middle-outer plasma, pointing out the loss of part of the EP population that explains the decrease of the plasma heating efficiency observed during the MHD burst.

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