N=2 ICRH of H majority plasmas in JET-ILW

E. Lerche, D. Van Eester, Y. Kazakov, P. Jacquet, I. Monakhov, M. Goniche, L. Colas, F. Rimini, K. Crombé, R. Dumont, V. Kiptily, M. Santala

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Résumé

Heating single ion species plasmas with ICRF is a challenging task: Fundamental ion cyclotron heating (w = wci) suffers from the adverse polarization of the RF electric fields near the majority cyclotron resonance while second harmonic heating (w = 2wci) typically requires pre-heating of the plasma ions to become efficient. Recently, w = 2wci ICRF heating was tested in JET-ILW hydrogen plasmas in the absence of neutral beam injection (L-mode). Despite the lack of pre-heating, up to 6MW of ICRF power were coupled to the plasma leading to a transition to H-mode for PICRH>5MW in most discharges. Heating efficiencies between 0.65-0.85 were achieved as a combination of the low magnetic field adopted (enhanced finite Larmor radius effects) and the deliberate slow rise of the ICRF power, allowing time for a fast ion population to gradually build-up leading to a systematic increase of the wave absorptivity. Although fast ion tails are a common feature of harmonic ICRF heating, the N=2 majority heating features moderate tail energies (<500keV) except at very low plasma densities (ne0<3×1019/m3), where fast H tails in the MeV range developed and fast ion losses became significant, leading to enhanced plasma wall interaction. The main results of these experiments will be reported.

langue originaleAnglais
titreRadio Frequency Power in Plasmas
Sous-titreProceedings of the 21St Topical Conference
rédacteurs en chefRobert I. Pinsker
EditeurAmerican Institute of Physics Inc.
ISBN (Electronique)9780735413368
Les DOIs
étatPublié - 10 déc. 2015
Evénement21st Topical Conference on Radiofrequency Power in Plasmas - Lake Arrowhead, États-Unis
Durée: 27 avr. 201529 avr. 2015

Série de publications

NomAIP Conference Proceedings
Volume1689
ISSN (imprimé)0094-243X
ISSN (Electronique)1551-7616

Une conférence

Une conférence21st Topical Conference on Radiofrequency Power in Plasmas
Pays/TerritoireÉtats-Unis
La villeLake Arrowhead
période27/04/1529/04/15

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