Sawtooth Control in Fusion Plasmas

Clear observations of early triggering of neo-classical tearing modes by sawteeth with long quiescent periods have motivated recent efforts to control, and in particular destabilise, sawteeth. One successful approach explored in TCV utilises electron cyclotron heating in order to locally increase the current penetration time in the core. The latter is also achieved in various machines by depositing electron cyclotron current drive or Ion Cyclotron Current Drive (ICCD) close to the q = 1 rational surface. Crucially localised current drive also succeeds in destabilising sawteeth which are otherwise stabilised by a coexisting population of energetic trapped ions in the core. In addition, a recent reversed toroidal field campaign at JET demonstrates that counter-Neutral Beam Injection (NBI) results in shorter sawtooth periods than in the Ohmic regime. The clear dependence of the sawtooth period on the NBI heating power and the direction of injection also manifests itself in terms of the toroidal plasma rotation, which consequently requires consideration in the theoretical interpretation of the experiments. Another feature of NBI, expected to be especially evident in the Negative ion based Neutral Beam Injection (NNBI) heating planned for ITER, is the parallel velocity asymmetry of the fast ion population. It is predicted that a finite orbit effect of asymmetrically distributed circulating ions could strongly modify sawtooth stability. Furthermore, NNBI driven current with nonmonotonic profile could significantly slow down the evolution of the safety factor in the core, thereby delaying sawteeth.
Name Size  
EFDC050245 965.33 Kb