Interaction of supra-thermal ions with turbulence in a magnetized toroidal plasma
This thesis addresses the interaction of a supra-thermal ion beam with turbulence in the simple magnetized toroidal plasma of TORPEX. The first part of the thesis deals with the ohmic assisted discharges on TORPEX. The aim of these discharges is the investigation of the open to closed magnetic field line transition. The relevant magnetic diagnostics were developed. Ohmic assisted discharges with a maximum plasma current up to 1kA are routinely obtained. The equilibrium conditions on the vacuum magnetic field configuration were investigated. In the second part of the thesis, the design of the fast ion source and detector are discussed. The accelerating electric field needed for the fast ion source was optimized. The fast ion source was constructed and commissioned. To detect the fast ions a specially designed gridded energy analyzer was used. The electron energy distribution function was obtained to demonstrate the efficiency of the detector. The experiments with the fast ion beam were conducted in different plasma regions of TORPEX. In the third part of the thesis numerical simulations are used to interpret the measured fast ion beam behavior. It is shown that a simple single particle equation of motion explains the beam behavior in the experiments in the absence of plasma. To explain the fast ion beam experiments with the plasma a turbulent electric field must be used. The model that takes into account this turbulent electrical field qualitatively explains the shape of the fast ion current density profile in the different plasma regions of TORPEX. The vertically elongated fast ion current density profiles are explained by a spread in the fast ion velocity distribution. The theoretically predicted radial fast ion beam spreading due to the turbulent electric field was observed in the experiment.
Keywords: TORPEX ; experiment ; plasma ; fast ion beam ; fast ion source ; gridded energy analyzer ; ohmic assisted discharge ; TORPEX ; expérience ; plasma ; faisceau d'ions rapides ; source d'ions rapides ; analyseur d'énergie à grille ; décharge ohmique assistéeThèse École polytechnique fédérale de Lausanne EPFL, n° 4543 (2009)
Programme doctoral Physique
Faculté des sciences de base
CRPP Association Euratom
Record created on 2009-10-15, modified on 2016-08-08