Effect of antenna phasing and wall conditioning on ICRH in TEXTOR

A Messiaen; J -M Beuken; L de Keyser; T Delvigne; P Descamps; F Durodie; M Gaigneaux; M Jadoul; R Koch; D Lebeau; J Ongena; X M Shen; P E Vandenplas; R van Nieuwenhove; G van Oost; G van Wassenhove; R R Weynants; T Banno; G Bertschinger; P Bogen; Y Cao; H Conrads; K -H Dippel; H G Esser; K -H Finken; G Fuchs; B Giesen; E Graffmann; H Hartwig; E Hintz; F Hoenen; K Hoethker; B Kardon; L Koenen; M Korten; Y T Lie; V Philipps; A Pospieszczyk; D Rusbueldt; U Samm; J Schlueter; B Schweer; H Soltwisch; F Waelbroeck; G Waidmann; P Wienhold; J Winter; G H Wolf; R W Conn; W J Corbett; D M Goebel

doi:10.1088/0741-3335/31/6/004

Plasma Physics and Controlled Fusion

Effect of antenna phasing and wall conditioning on ICRH in TEXTOR

A Messiaen¹, J -M Beuken¹, L de Keyser¹, T Delvigne¹, P Descamps¹, F Durodie¹, M Gaigneaux¹, M Jadoul¹, R Koch¹, D Lebeau¹, J Ongena¹, X M Shen¹, P E Vandenplas¹, R van Nieuwenhove¹, G van Oost¹, G van Wassenhove¹, R R Weynants¹, T Banno¹, G Bertschinger¹, P Bogen¹, Y Cao¹, H Conrads¹, K -H Dippel¹, H G Esser¹, K -H Finken¹, G Fuchs¹, B Giesen¹, E Graffmann¹, H Hartwig¹, E Hintz¹, F Hoenen¹, K Hoethker¹, B Kardon¹, L Koenen¹, M Korten¹, Y T Lie¹, V Philipps¹, A Pospieszczyk¹, D Rusbueldt¹, U Samm¹, J Schlueter¹, B Schweer¹, H Soltwisch¹, F Waelbroeck¹, G Waidmann¹, P Wienhold¹, J Winter¹, G H Wolf¹, R W Conn¹, W J Corbett¹ and D M Goebel¹

Published under licence by IOP Publishing Ltd
Plasma Physics and Controlled Fusion, Volume 31, Number 6 Citation A Messiaen et al 1989 Plasma Phys. Control. Fusion 31 921 DOI 10.1088/0741-3335/31/6/004

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¹ Lab. de Phys. des Plasmas, Ecole Militaire-Koninklijke Militaire Sch., Brussels, Belgium

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Abstract

Four new low field side antennae grouped in pairs have been installed on TEXTOR. It is found that the interaction with the wall (density rise, impurity generation) is significantly reduced when operating each pair out of phase ( pi ) as opposed to in phase (0). The beneficial effect in the pi configuration is obtained without drop in plasma loading. This experimental property is shown, from theory, to be explained by the judicious choice of the geometrical configuration. A further improvement in the wall interaction is made possible by an appropriate choice of wall conditioning (wall carbonization with liner at 400 degrees C or, above all, boronization). As a result record low values of P_rad/P_total were achieved during ICRH. The large reduction in wall interaction during ICRH allows routine long pulse (>1 s) ICRH operation at the maximum power level available ( equivalent to 2.5 MW).

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Effect of antenna phasing and wall conditioning on ICRH in TEXTOR

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