Abstract
The penetration of deuterium pellets into ohmically heated TORE SUPRA plasmas has been studied for various plasma conditions (ne = 1 × 1019-6 × 1019 m3, Te = 1-4 keV) and pellet characteristics (Np = 2 × 1020-1.3 × 1021 atoms/pellet, Vp = 0.6-2.4 km/s - i.e. an increase of about 1 km/s from the velocity range covered by the available data for pellet studies). The measured penetration depths compare well with the predictions of the NGS model. A refined NGPS model is presented, in which the plasma channel radius is computed self-consistently and the heating of the neutral cloud by the 'cold' plasma sheath is taken into account explicitly. When the value of ne is sufficiently high, it fits the experimental penetration values well, and the computed matter deposition profile compares well with the measured Hα signal. The same model has been shown to fit the experimental scaling laws deduced from the JET and ASDEX data
Published Version
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call