Source de particules neutres monocinétiques : diagnostics spécifiques et étude physique d'une source de Hall en plasma d'argon ou en mixture xénon-argon

摘要

Since the 50s, electric propulsion has improved in order to establish itself on space propulsion field. The Hall Effect Thruster (HET) are mainly used for trajectory correction or satellites orbit maintaining. The HET provide high current densities and low energy ion beam that making it a good candidate for other applications such as microelectronics or surface treatments. Xenon propellant is most commonly used due to its high atomic mass and its low ionization energy. However, the high cost and difficult supply of xenon, leads to looking for alternative propellant for HET operation. In this context, this PhD thesis had as goal the development of a functional Argon low power source. Argon discharge ignition is not immediate, that why a progressive approach which involves gas mixture discharges was adopted. The Xe-Ar discharge gives very interesting results for the understanding of physical mechanisms governing HET. The characterization of Xe II ions velocity (Laser Induced Fluorescence) associated to the energy analysis by RPA have provided access to useful information on ionization and acceleration areas. An original time resolved RPA technique, based on an ultra-fast discharge interruption or on the discharge current oscillations, has been developed. This technique allows the identification and the quantification of different species present in the ion beam. Thanks to the discharge Xe-Ar study, a pure argon discharge could be initiated and characterized for the first time in a low power HET.