@inproceedings{f33d2e40b3004362ba1c10a685af12f5,
title = "D majority heating in JET plasmas: ICRH modelling and experimental RF deposition",
abstract = "Recent experiments in JET have provided information on the potential of using majority RF heating schemes in large plasmas. Adopting a wide range of available diagnostics, the plasma behaviour was monitored. The main results of the experiments are that - due to the poor antenna coupling at low frequency, the low (Ohmic) plasma temperature and the reduced RF electric field amplitude near the ion-cyclotron resonance layer of the majority ions - ICRH alone is barely capable of heating the plasma. On the other hand, when preheating the plasma using neutral beam injection, the wave-plasma coupling is noticeably improved and considerable plasma heating, followed by increased neutron yield were observed in several diagnostics. This effect is not only attributed to the lower collisionality of the pre-heated plasma but also to the Doppler-shifted IC absorption of the fast beam ions. By studying the response of the plasma to sudden changes in the RF power level, the experimental power deposition profiles were determined and compared to theoretical predictions. The numerical modelling was done adopting a coupled wave/Fokker-Planck code that enables accounting for the non-Maxwellian distributions of the RF heated particles and the injected beam ions in the wave equation, and for the actual local RF fields in the Fokker-Planck description. The theoretical results confirm the experimental finding that the beam ions do play a crucial role in this heating scheme.",
keywords = "Full-wave, ICRH, Quasi-linear Fokker-Planck, RF absorption, Tokamak",
author = "E. Lerche and {Van Eester}, D. and A. Krasilnikov and P. Lamalle",
year = "2007",
doi = "10.1063/1.2800547",
language = "English",
isbn = "0735404445",
series = "AIP Conference Proceedings",
pages = "51--54",
booktitle = "RADIO FREQUENCY POWER IN PLASMAS",
note = "17th Topical Conference on Radio Frequency Power in Plasmas ; Conference date: 07-05-2007 Through 09-05-2007",
}