@inproceedings{8c2947c685994701b0ab4561296eb6b4,
title = "RF physics of ICWC discharge at high cyclotron harmonics",
abstract = "Recent experiments on Ion Cyclotron Wall Conditioning (ICWC) performed in tokamaks TEXTOR and ASDEX Upgrade with standard ICRF antennas operated at fixed frequencies but variable toroidal magnetic field demonstrated rather contrasting parameters of ICWC discharge in scenarios with on-axis fundamental ion cyclotron resonance (ICR) for protons,ω=ωH+, and with its high cyclotron harmonics (HCH), ω=10ωcH+ HCH scenario: very high antenna coupling to low density RF plasmas (Ppl0.9P RF-G) and low energy Maxwellian distribution of CX hydrogen atoms with temperature TH350 eV. Fundamental ICR: lower antenna-plasma coupling efficiency (by factor of about 1.5 times) and generation of high energy non-Maxwellian CX hydrogen atoms (with local energy E⊥H ≥1.0 keV). In the present paper, we analyze the obtained experimental results numerically using (i) newly developed 0-D transport code describing the process of plasma production with electron and ion collisional ionization in helium-hydrogen gas mixture and (ii) earlier developed 1-D Dispersion Relation Solver accounting for finite temperature effects and collision absorption mechanisms for all plasma species in addition to conventionally examined Landau/TTPM damping for electrons and cyclotron absorption for ions. The numerical study of plasma production in helium with minor hydrogen content in low and high toroidal magnetic fields is presented. The investigation of the excitation, conversion and absorption of plasma waves as function of B T-field suggests that only fast waves (FW) may give a crucial impact on antenna coupling and characteristics of the ICWC discharge using standard poloidally polarized ICRF antennas designed to couple RF power mainly to FW. The collisional (non-resonant) absorption by electrons and ions and IC absorption by resonant ions of minor concentration in low Te plasmas is studied at fundamental ICR and its high harmonics.",
keywords = "ICRF Antennas, ICRF discharge, Tokamak, Wall Conditioning",
author = "A. Lyssoivan and {Van Eester}, D. and T. Wauters and V. Bobkov and M. Vervier and D. Douai and D. Kogut and A. Kreter and V. Moiseenko and S. M{\"o}ller and Noterdaeme, {J. M.} and V. Philipps and V. Rohde and P. Schneider and G. Sergienko and {Van Schoor}, M.",
year = "2014",
doi = "10.1063/1.4864544",
language = "English",
isbn = "9780735412101",
series = "AIP Conference Proceedings",
publisher = "American Institute of Physics Inc.",
pages = "287--290",
booktitle = "Radiofrequency Power in Plasmas - Proceedings of the 20th Topical Conference",
note = "20th Topical Conference on Radiofrequency Power in Plasmas ; Conference date: 25-06-2013 Through 28-06-2013",
}