Recent advances in physics and technology of ion cyclotron resonance heating in view of future fusion reactors

J. Ongena, A. Messiaen, Ye O. Kazakov, R. Koch, R. Ragona, V. Bobkov, K. Crombé, F. Durodié, M. Goniche, A. Krivska, E. Lerche, F. Louche, A. Lyssoivan, M. Vervier, D. Van Eester, M. Van Schoor, T. Wauters, J. Wright, S. Wukitch

Résultats de recherche: Contribution à un journalArticle de revueRevue par des pairs

Résumé

Ion temperatures of over 100 million degrees need to be reached in future fusion reactors for the deuterium-tritium fusion reaction to work. Ion cyclotron resonance heating (ICRH) is a method that has the capability to directly heat ions to such high temperatures, via a resonant interaction between the plasma ions and radiofrequency waves launched in the plasma. This paper gives an overview of recent developments in this field. In particular a novel and recently developed three-ion heating scenario will be highlighted. It is a flexible scheme with the potential to accelerate heavy ions to high energies in high density plasmas as expected for future fusion reactors. New antenna designs will be needed for next step large future devices like DEMO, to deliver steady-state high power levels, cope with fast variations in coupling due to fast changes in the edge density and to reduce the possibility for impurity production. Such a new design is the traveling wave antenna (TWA) consisting of an array of straps distributed around the circumference of the machine, which is intrinsically resilient to edge density variations and has an optimized power coupling to the plasma. The structure of the paper is as follows: to provide the general reader with a basis for a good understanding of the later sections, an overview is given of wave propagation, coupling and RF power absorption in the ion cyclotron range of frequencies, including a brief summary of the traditionally used heating scenarios. A special highlight is the newly developed three-ion scenario together with its promising applications. A next section discusses recent developments to study edge-wave interaction and reduce impurity influx from ICRH: the dedicated devices IShTAR and Aline, field aligned and three-strap antenna concepts. The principles behind and the use of ICRH as an important option for first wall conditioning in devices with a permanent magnetic field is discussed next. The final section presents ongoing developments for antenna systems in next step devices like ITER and DEMO, with as highlight the TWA concept.

langue originaleAnglais
Numéro d'article054002
journalPlasma Physics and Controlled Fusion
Volume59
Numéro de publication5
Les DOIs
étatPublié - 23 mars 2017

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