Pressure-gradient-induced Alfven eigenmodes: II. Kinetic excitation with ion temperature gradient

Details Pressure-gradient-induced Alfven eigenmodes: II. Kinetic excitation with ion temperature gradient Pressure-gradient-induced Alfven eigenmodes: II. Kinetic excitation with ion temperature gradient

2009-07-24

arxiv.org/abs/0907.4224v3

Plasma Phys. Control. Fusion 52 (2010) 015005 (24pp)

Physics

Plasma Physics

25 pages, 9 figures

Scientific paper

10.1088/0741-3335/52/1/015005

The kinetic excitation of ideal magnetohydrodynamic (MHD) discrete Alfven eigenmodes in the second MHD ballooning stable domain is studied in the presence of a thermal ion temperature gradient (ITG), using linear gyrokinetic particle-in-cell simulations of a local flux tube in shifted-circle tokamak geometry. The instabilities are identified as alpha-induced toroidal Alfven eigenmodes (alpha-TAE); that is, bound states trapped between pressure-gradient-induced potential barriers of the Schroedinger equation for shear Alfven waves. Using numerical tools, we examine in detail the effect of kinetic thermal ion compression on alpha-TAEs; both non-resonant coupling to ion sound waves and wave-particle resonances. It is shown that the Alfvenic ITG instability thresholds (e.g., the critical temperature gradient) are determined by two resonant absorption mechanisms: Landau damping and continuum damping. The numerical results are interpreted on the basis of a theoretical framework previously derived from a variational formulation. The present analysis of properties and structures of Alfvenic fluctuations in the presence of steep pressure gradients applies for both positive or negative magnetic shear and can serve as an interpretative framework for experimental observations in (future) high-performance fusion plasmas of reactor relevance.

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