Title :
ECRH and ECCD with high power gyrotrons at the stellarators W7-AS and W7-X
Author :
Erckmann, V. ; Dammertz, Gunter ; Dorst, D. ; Empacher, L. ; Förster, W. ; Gantenbein, G. ; Geist, T. ; Kasparek, W. ; Laqua, H.P. ; Müller, G.A. ; Thumm, Manfred ; Weissgerber, M. ; Wobig, H.
Author_Institution :
Max-Planck-Inst. fur Plasmaphys., Garching bei Munchen, Germany
fDate :
4/1/1999 12:00:00 AM
Abstract :
Electron cyclotron resonance heating (ECRH) plays a key role in stellarator research, because it provides net current free plasma start up and heating toward reactor relevant plasma parameters. ECRH was extensively used and investigated in the stellarator experiments at IPP Garching, i.e., the W7-A and the W7-AS stellarators. These experiments provide a solid physics and technological basis for the 10 MW, CW ECRH system, which is under construction for the superconducting next step stellarator W7-X and will become operational in 2005. We briefly describe some of the major stellarator specific physics results on ECRH and electron cyclotron (EC)-current drive from W7-A and W7-AS. The scientific goals and the design of W7-X are outlined together with the demands for the ECRH system, which is the main heating system in the first stage of the experiment. The present status of the ECRH engineering design including the gyrotrons, all auxiliary systems, the transmission line, and the launching system are presented
Keywords :
gyrotrons; millimetre wave tubes; plasma radiofrequency heating; stellarators; superconducting microwave devices; 10 MW; ECCD; ECRH; IPP Garching; W7-AS; W7-X; auxiliary systems; electron cyclotron current drive; high power gyrotrons; launching system; net current free plasma start up; reactor relevant plasma parameters; stellarators; superconducting next step stellarator; transmission line; Cyclotrons; Electrons; Gyrotrons; Heating; Inductors; Physics; Plasmas; Resonance; Solids; Superconducting transmission lines;
Journal_Title :
Plasma Science, IEEE Transactions on
