The constructive interference effect described by Fuchs et al. [1] shows that the mode conversion and thereby the overall heating efficiency can be enhanced significantly when an integer number of fast wave wavelengths can be folded in between the high field side fast wave cutoff and the ion‐ion hybrid layer(s) at which the ion Bernstein or ion cyclotron waves are excited. This effect was already experimentally identified in (3He)‐D plasmas [2] and was recently tested in (3He)‐H JET plasmas. The latter is an ‘inverted’ scenario, which differs significantly from the (3He)‐D scenarios since the mode‐conversion layer is positioned between the low field side edge of the plasma and the ion‐cyclotron layer of the minority 3He ions (whereas the order in which a wave entering the plasma from the low field side encounters these layers is inverted in a ‘regular’ scenario), and because much lower 3He concentrations are needed to achieve the mode‐conversion heating regime. The presence of small amounts of 4He and D in the discharges gave rise to an additional mode conversion layer on top of the expected one associated with 3He‐H, which made the interpretation of the results more complex but also more interesting: Three different regimes could be distinguished as a function of X[3He], and the differing dynamics at the various concentrations could be traced back to the presence of these two mode conversion layers and their associated fast wave cutoffs. Whereas (1‐D and 2‐D) numerical modeling yields quantitative information on the RF absorptivity, recent analytical work by Kazakov [3] permits to grasp the dominant underlying wave interaction physics.

Van Eester, D., Lerche, E., Johnson, T., Hellsten, T., Ongena, J., Mayoral, M., et al. (2011). Enhancing The Mode Conversion Efficiency In JET Plasmas With Multiple Mode Conversion Layers. In AIP Conference Proceedings (pp.301-308). AMER INST PHYSICS [10.1063/1.3664981].

Enhancing The Mode Conversion Efficiency In JET Plasmas With Multiple Mode Conversion Layers

GORINI, GIUSEPPE;NOCENTE, MASSIMO;
2011

Abstract

The constructive interference effect described by Fuchs et al. [1] shows that the mode conversion and thereby the overall heating efficiency can be enhanced significantly when an integer number of fast wave wavelengths can be folded in between the high field side fast wave cutoff and the ion‐ion hybrid layer(s) at which the ion Bernstein or ion cyclotron waves are excited. This effect was already experimentally identified in (3He)‐D plasmas [2] and was recently tested in (3He)‐H JET plasmas. The latter is an ‘inverted’ scenario, which differs significantly from the (3He)‐D scenarios since the mode‐conversion layer is positioned between the low field side edge of the plasma and the ion‐cyclotron layer of the minority 3He ions (whereas the order in which a wave entering the plasma from the low field side encounters these layers is inverted in a ‘regular’ scenario), and because much lower 3He concentrations are needed to achieve the mode‐conversion heating regime. The presence of small amounts of 4He and D in the discharges gave rise to an additional mode conversion layer on top of the expected one associated with 3He‐H, which made the interpretation of the results more complex but also more interesting: Three different regimes could be distinguished as a function of X[3He], and the differing dynamics at the various concentrations could be traced back to the presence of these two mode conversion layers and their associated fast wave cutoffs. Whereas (1‐D and 2‐D) numerical modeling yields quantitative information on the RF absorptivity, recent analytical work by Kazakov [3] permits to grasp the dominant underlying wave interaction physics.
paper
plasma transport processes, plasma collision processes, plasma diagnostics, optimisation
English
Radio Frequency Power in Plasmas: 19th Topical Conference
1-3 June 2011
AIP Conference Proceedings
9780735409781
2011
1406
301
308
none
Van Eester, D., Lerche, E., Johnson, T., Hellsten, T., Ongena, J., Mayoral, M., et al. (2011). Enhancing The Mode Conversion Efficiency In JET Plasmas With Multiple Mode Conversion Layers. In AIP Conference Proceedings (pp.301-308). AMER INST PHYSICS [10.1063/1.3664981].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/40155
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