Influence of the plasma profile and the antenna geometry on the matching and current distribution control of the ITER ICRF antenna array. Optimization of the decoupling-matching system

The eight triplets of straps of the ITER ICRF antenna array are fed through 8 matching circuits and 4 hybrids to ensure load resilience. Decouplers are used to mitigate the effects of triplet mutual coupling. They also control the array phasing. The electrical constraints on the decouplers for different layouts with heating (H) or current drive (CD) phasing are compared starting from the TOPICA matrix computed for the last antenna plug design and the reference (most pessimistic) plasma profile "2010low" provided by IO. It is shown that this last profile provides a significant decrease of plasma coupling and increase of mutual coupling with respect to the previous reference profile "Sc2short17". This results in a larger range of decoupler reactance X-dec and voltage V-Xdec needed. This range can be reduced when using 10 decouplers instead of the 7 needed for the same forward power PGk+ of the 4 power sources. For H phasing only 4 decouplers could be used but with different PGk+ (PGk+ ratio up to 1.5-2.5). For CD phasing and same plasma profile the power capability P-tot is increased by 25% with a decoupler layout allowing much smaller poloidal phasing than the 90 degrees provided by the hybrids. A decrease of the distance antenna-plasma profile reduces the normalized decoupler voltage V-Xdec/root P-tot with no significant change of the X-dec range. The recess of the vertical septa between the strap boxes increases the plasma coupling but has the drawback of also increasing the mutual coupling between triplets: the needed range of X-dec and of V-Xdec/root P-tot is increased in proportion. (C) 2013 Euratom-Belgian state Association Laboratoire de Physique des Plasmas LPP-ERM/KMS. Published by Elsevier B.V. All rights reserved.