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Impact of Resonant Magnetic Perturbations on the L-H Transition on MAST

The impact of resonant magnetic perturbations (RMPs) on the power required to access H-mode is examined experimentally on MAST. Applying RMP in n=2,3,4 and 6 configurations causes significant delays to the timing of the L-H transition at low applied fields and prevents the transition at high fields. The experiment was primarily performed at RMP fields sufficient to cause moderate increases in ELM frequency, f mitigated/f natural~3. To obtain H-mode with RMPs at this field, an increase of injected beam power is required of at least 50% for n=3 and n=4 RMP and 100% for n=6 RMP. In terms of power threshold, this corresponds to increases of at least 20% for n=3 and n=4 RMPs and 60% for n=6 RMPs. This 'RMP affected' power threshold is found to increase with RMP magnitude above a certain minimum perturbed field, below which there is no impact on the power threshold. Extrapolations from these results indicate large increases in the L-H power threshold will be required for discharges requiring large mitigated ELM frequency.

preprint2014arXivOpen access
R. ScannellA. KirkM. CarrJ. HawkeS. S. HendersonT. O'GormanA. PatelA. ShawA. Thorntonthe MAST Team
physics.plasm-ph
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R. ScannellA. KirkM. CarrJ. HawkeS. S. HendersonT. O'GormanA. PatelA. ShawA. Thorntonthe MAST Team

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