Laboratory for Plasma Physics
Ecole Royale Militaire - Koninklijke Militaire School
Avenue de la Renaissance 30, 1000 Brussels
Phone: (+32) 2 742 65 72       Fax: (+32) 2 735 24 21
Wendelstein W7-X

Currently LPP-ERM/KMS is developing an ICRH antenna for the stellerator W7-X. The main aim of the ICRH system for W7-X is generating fast ions (with energies of ~ 60-80 keV) in order to demonstrate that a stellarator is able to confine this kind of fast particles. In addition, the antenna also provides a heating and current drive tool for short periods, complementing the steady-state ECRH-system. The system can also serve as an Ion Cyclotron Wall Conditioning (ICWC) system.

One of the main aims of the W7-X device is demonstrating the reactor potential of stellarators. It is therefore crucial to show that an optimized stellarator configuration can provide sufficient confinement of fast alphas. Scaling down HELIAS reactor parameters to the W7-X parameter range one finds that this is equivalent by showing that fast protons with energies of ~ 60 keV or fast Helium-3 ions with energies of ~ 80 keV are well confined. The main aim of the ICRH system for W7-X is precisely generating such tails. In addition, it also provides a heating and current drive tool for short periods, complementing the steady-state ECRH. The system can also serve as an Ion Cyclotron Wall Conditioning (ICWC) system.

Providing a sufficiently large fast particle tail with the usual ICRH heating schemes would require low density plasmas (a few times 10^19 m-3). However, LPP-ERM/KMS sees the possibility to provide even at the highest densities (of the order of 10^20 m-3) fast particle tails with energies between 50-100 keV (with potential for even higher energies if that would be required in later experiments), using a novel three ion species ICRH heating scheme. The specific advantage of ICRH is the absence of a cut-off at high density, allowing applications beyond the capabilities of standard ECRH in the magnetic topology of a stellarator.

Stellarator W7-X