Issue |
EPJ Web Conf.
Volume 157, 2017
22 Topical Conference on Radio-Frequency Power in Plasmas
|
|
---|---|---|
Article Number | 03023 | |
Number of page(s) | 4 | |
Section | Standard Papers | |
DOI | https://doi.org/10.1051/epjconf/201715703023 | |
Published online | 23 October 2017 |
https://doi.org/10.1051/epjconf/201715703023
A current drive by using the fast wave in frequency range higher than two timeslower hybrid resonance frequency on tokamaks
1 Korea Atomic Energy Research Institute, Nuclear Fusion Technology Development Division, 34057 Daejeon, Korea
2 Seoul National Univeersity, Department of Nuclear Engineering, 08826, Seoul, Korea
3 National Fursion Research Institute, Diagnostic and Heating DeviceGroup, 34133 Daejeon, Korea
* Corresponding author: shkim95@kaeri.re.kr
Published online: 23 October 2017
An efficient current drive scheme in central or off-axis region is required for the steady state operation of tokamak fusion reactors. The current drive by using the fast wave in frequency range higher than two times lower hybrid resonance (w>2wlh) could be such a scheme in high density, high temperature reactor-grade tokamak plasmas. First, it has relatively higher parallel electric field to the magnetic field favorable to the current generation, compared to fast waves in other frequency range. Second, it can deeply penetrate into high density plasmas compared to the slow wave in the same frequency range. Third, parasitic coupling to the slow wave can contribute also to the current drive avoiding parametric instability, thermal mode conversion and ion heating occured in the frequency range w<2wlh. In this study, the propagation boundary, accessibility, and the energy flow of the fast wave are given via cold dispersion relation and group velocity. The power absorption and current drive efficiency are discussed qualitatively through the hot dispersion relation and the polarization. Finally, those characteristics are confirmed with ray tracing code GENRAY for the KSTAR plasmas.
© The authors, published by EDP Sciences, 2017
This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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