We show for JET and ASDEX Upgrade, based on Thomson-scattering measurements, a clear correlation of the density limit of the tokamak H-mode high-confinement regime with the approach to the ideal ballooning instability threshold at the periphery of the plasma. It is shown that the MHD ballooning parameter at the separatrix positionαsep ncreases about linearly with the separatrix density normalized to Greenwald density, ne,sep/nGW for a wide range of discharge parameters in both devices. The observed operational space is found to reach at maximum ne,sep/nGW ≈ 0.4-0.5 at values for αsep ≈22.5, in the range of theoretical predictions for ballooning instability. This work supports the hypothesis that the H-mode density limit may be set by ballooning stability at the separatrix.
Correlation of the tokamak H-mode density limit with ballooning stability at the separatrix
PIRON LIDIA
;
2018
Abstract
We show for JET and ASDEX Upgrade, based on Thomson-scattering measurements, a clear correlation of the density limit of the tokamak H-mode high-confinement regime with the approach to the ideal ballooning instability threshold at the periphery of the plasma. It is shown that the MHD ballooning parameter at the separatrix positionαsep ncreases about linearly with the separatrix density normalized to Greenwald density, ne,sep/nGW for a wide range of discharge parameters in both devices. The observed operational space is found to reach at maximum ne,sep/nGW ≈ 0.4-0.5 at values for αsep ≈22.5, in the range of theoretical predictions for ballooning instability. This work supports the hypothesis that the H-mode density limit may be set by ballooning stability at the separatrix.
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