• Français  | 
  • WEST  | 
Control of instabilities and turbulence by fast particles
Jean-Baptiste GIRARDO
Fri, Sep. 11th 2015, 14:00-19:00
Salle René GRAVIER 506 rdc, CEA Cadarache

Pr Yanick Sarazin Institut de Recherche sur la Fusion par confinement

Magnétique (IRFM, Cadarache, France) Directeur de thèse

 

Dr Rémi Dumont Institut de Recherche sur la Fusion par confinement

Magnétique (IRFM, Cadarache, France) Responsable CEA

 

Pr Boris Breizman Université du Texas à Austin

(UT, Austin, Etats-Unis) Rapporteur

 

Dr Philipp Lauber Institut Max Planck de recherche en Physique

des Plasmas (IPP, Garching, Allemagne) Rapporteur

 

Pr Peter Beyer Aix-Marseille Université (AMU, Marseille,

France) Examinateur

 

Dr Xavier Garbet Institut de Recherche sur la Fusion par confinement

Magnétique (IRFM, Cadarache, France) Examinateur

 

Pr Jean-Marcel Rax École Polytechnique

(l'X, Palaiseau, France) Examinateur

 

Dr Sergei Sharapov Centre de recherche de Culham sur l'Energie

de Fusion (CCFE, Culham, Royaume-Uni) Examinateur

 

Abstract

 

Turbulence and MHD instabilities can cause particle and energy transport from core to edge plasma in tokamaks. A consequence is the degradation of plasma confinement. Understanding and controlling those phenomena is of tremendous importance in view of next step fusion experiments such as ITER and DEMO. Fast ions, such as alpha particles or those ions generated by heating sources, are known to have direct and/or indirect interactions with turbulence and MHD instabilities. They may be used to control those phenomena. In this thesis, we study the interaction of fast particles with two different modes: the sawtooth instability; and the Ion Temperature Gradient (ITG) turbulence via the excitation of Energetic particle driven Geodesic Acoustic Modes (EGAMs). First, we report on the strong stabilization of sawteeth by fast deuterium ions, accelerated to the 100 keV range by neutral beam injection and subsequently to the MeV range by 3rd harmonic ion cyclotron resonance heating, in the JET tokamak. This stabilization is analysed and understood in the framework of a theoretical model (Porcelli's model). Second, we perform an analytical study of the linear excitation by fast ions of the electrostatic branch of EGAMs. In particular, by scanning the parameter space, we shed light on the relation and differences between EGAMs and Geodesic Acoustic Modes (GAMs). The latter are known to efficiently interact with turbulence but are harder to control than EGAMs. A good knowledge of this relation is of interest to understand whether GAMs and EGAMs are capable of similar interactions with turbulence. Finally, we use a three wave parametric decay model to study the interaction between EGAMs and ITG modes. The possible control of ITG turbulence by EGAMs is discussed in this framework.

 

 

 

 

 

Sous réserve de la validation par le comité de l'EDX du 7 septembre 2015

 

 

 

Contact : vi214773

 

Tableau d'affichage des mémoires de thèse »

Retour en haut