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In dieser Arbeit wird der Strahltransport in einem CH-Driftröhrenbeschleuniger untersucht. Hierfür wurden numerische Simulationen zur elektromagnetischen Feldverteilung und dem strahldynamischen Einfluss der CH-Driftröhrenkavität durchgeführt. Sie fungiert als Prototyp für CH-Strukturen im Injektor des MYRRHA-Projekts, einem beschleunigergetriebenen System (ADS) zur Transmutation radioaktiven Abfalls. Zudem wird sie an der im Aufbau befindlichen Frankfurter Neutronenquelle am Stern-Gerlach-Zentrum (FRANZ) an der Goethe-Universität Frankfurt am Main experimentell mit Strahl getestet werden. FRANZ dient neben dem Einsatz als Experimentierfeld für neuartige Beschleuniger- und Strahldiagnostikkonzepte vor allem der Forschung im Bereich nuklearer Astrophysik.
In this thesis, a novel 257 kHz chopper device was numerically developed, technically designed and experimentally commissioned; a 4-solenoid, low-energy ion beam transport line was numerically investigated, installed and experimentally commissioned; and a novel massless beam-separation system was numerically developed.
The chopper combines a pulsed electric field with a static magnetic field in an ExB or Wien-filter type field configuration. Chopped beam pulses with a 257 kHz repetition rate and rise times of 110 ns were experimentally achieved using a 14 keV helium beam.
Due to the achieved results, the complete LEBT line for the future Frankfurt Neutron Source FRANZ is ready to deliver a dc or a pulsed beam. At the same time, the LEBT section represents an attractive test stand for the study of low-energy ion beams. It combines magnetic lenses, which allow space-charge compensated beam transport, and a chopper system capable of producing short beam pulses in the hundred nanosecond range. Since these beam pulses are transported onwards, their longitudinal and transverse properties can be analyzed. The pulse duration and time of flight are well below the rise time for the space-charge compensation through residual gas ionization. This opens the possibility for dedicated investigations of the transport of short, low-energy beam pulses including longitudinal and transverse space-charge effects and of relevant issues like the dynamics of space-charge compensation and electron effects in short pulses.