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Indexed by:期刊论文
Date of Publication:2017-05-01
Journal:PHYSICS OF PLASMAS
Included Journals:SCIE、EI
Volume:24
Issue:5
ISSN No.:1070-664X
Abstract:Linear and nonlinear simulations of high-order harmonics q = 1 energetic particle modes excited by trapped energetic particles in tokamaks are carried out using kinetic/magnetohydrodynamic hybrid code M3D-K. It is found that with a flat safety factor profile in the core region, the linear growth rate of high-order harmonics (m = n > 1) driven by energetic trapped particles can be higher than the m/n = 1/1 component. The high m = n > 1 modes become more unstable when the pressure of energetic particles becomes higher. Moreover, it is shown that there exist multiple resonant locations satisfying different resonant conditions in the phase space of energetic particles for the high-order harmonics modes, whereas there is only one precessional resonance for the m/n = 1/1 harmonics. The fluid nonlinearity reduces the saturation level of the n = 1 component, while it hardly affects those of the high n components, especially the modes with m = n = 3, 4. The frequency of these modes does not chirp significantly, which is different with the typical fish-bone driven by trapped particles. In addition, the flattening region of energetic particle distribution due to high-order harmonics excitation is wider than that due to m/n = 1/1 component, although the m/n = 1/1 component has a higher saturation amplitude. Published by AIP Publishing.