PPPL-3854 is available in pdf format (1.0 MB).
Characterization of Fast Ion Absorption of the High Harmonic Fast Wave in the National Spherical Torus Experiment
Authors: A.L. Rosenberg, J.E. Menard, J.R. Wilson, S. Medley, C.K. Phillips, R. Andre, D.S. Darrow, R.J. Dumont, B.P. LeBlanc, M.H. Redi, T.K. Mau, E.F. Jaeger, P.M. Ryan, D.W. Swain, R.W. Harvey, J. Egedal, and the NSTX Team
Date of PPPL Report: August 2003
Presented at: the 15th AIP Topical Conference on Radio Frequency Power in Plasmas, Grand Teton National Park, WY, 19-21 May 2003; proceedings published: Physics of Plasmas 11:5 (May 2004) 2441-2452
Ion absorption of the high harmonic fast wave in a spherical torus is of critical importance to assessing the viability of the wave as a means of heating and driving current. Analysis of recent National Spherical Torus Experiment (NSTX) shots has revealed that under some conditions when neutral beam and radio-frequency (RF) power are injected into the plasma simultaneously, a fast ion population with energy above the beam injection energy is sustained by the wave. In agreement with modeling, these experiments find the RF-induced fast ion tail strength and neutron rate at lower B-fields to be less enhanced, likely due to a larger beta profile, which promotes greater off-axis absorption where the fast ion population is small. Ion loss codes find the increased loss fraction with decreased B insufficient to account for the changes in tail strength, providing further evidence that this is an RF interaction effect. Though greater ion absorption is predicted with lower k||, surprisingly little variation in the tail was observed, along with a small neutron rate enhancement with higher k||. Data from the neutral particle analyzer, neutron detectors, X-ray crystal spectrometer, and Thomson scattering is presented, along with results from the TRANSP transport analysis code, ray-tracing codes HPRT and CURRAY, full-wave code and AORSA, quasi-linear code CQL3D, and ion loss codes EIGOL and CONBEAM.