Journal article

Energetic particle physics studies on Alcator C-Mod

Energetic particle physics is studied in Alcator C-Mod in reactor relevant regimes with high density and equilibrated electron and ion temperatures. Stable Alfven eigenmodes are excited with low-power active magnetohydrodynamic antennas in the absence of a significant energetic particle tail to directly measure the damping rate of the modes. Stable toroidal Alfven eigenmode (TAE) damping rates between 0.5% < gamma/omega < 4.5% have been observed in diverted and limited plasmas. Alfven eigenmodes are destabilized with high-power hydrogen minority ion cyclotron radio frequency (ICRF) heating (P-ICRF < 6 MW) in lower-density plasmas in the current rise and in relatively high-density (<(n)over bar>(e) < 2.5 X 10(20) m(-3)) H-mode plasmas, which creates an energetic hydrogen ion tail with calculated energies up to 400 keV. Low toroidal mode number (n < 4) unstable modes are observed in the current rise with magnetic pickup coils at the wall and phase contrast imaging density fluctuation measurements in the core. Observations of energetic particle modes or TAEs that decrease in frequency and mode number with time up to a large sawtooth collapse indicate that fast particles play a role in stabilizing sawteeth. Alfven eigenmodes can also be used as diagnostics to precisely constrain the q profile and provide a qualitative measure of the fast particle distribution time evolution.


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