Title :
A 2.5-MV subnanosecond pulser with laser-triggered spark gap for the generation of high-brightness electron bunches
Author :
Brussaard, Seth ; Vyuga, Dmitry
Author_Institution :
Center for Plasma Phys. & Radiat. Technol., Eindhoven Univ. of Technol., Netherlands
Abstract :
Generation of ultra-short high-brightness electron bunches, suitable for injection into single-pass free electron lasers or laser wakefield accelerators, requires accelerating fields >1GV/m. To generate such fields, a 2.5-MV subnanosecond pulser was built and tested. The pulser is based on a Tesla transformer with an output voltage of up to 2.5 MV. The output pulse is transferred through a laser-triggered spark gap to a pulse-forming line. The spark gap is triggered using a 5-ns (frequency doubled Nd:Yag) laser pulse, resulting in a jitter of 5 ns at the end of the line. The pulse-forming line after the Tesla transformer was tuned to allow accurate shaping of the pulse. The output pulse of the system has a duration of 1 ns and a risetime of approximately 150ps. The output voltage can be varied and a maximum pulse height of 2.4 MV was achieved.
Keywords :
free electron lasers; laser beam effects; optical pulse generation; optical pulse shaping; particle beam bunching; particle beam injection; pulse generators; pulsed power supplies; spark gaps; wakefield accelerators; 1 ns; 2.4 MV; 2.5 MV; 5 ns; Tesla transformer; high-brightness electron bunch generation; laser wakefield accelerators; laser-triggered spark gap; pulse-forming line; single-pass free electron lasers; subnanosecond pulser; Acceleration; Electron accelerators; Free electron lasers; Laser tuning; Optical pulse generation; Optical pulses; Pulse shaping methods; Pulse transformers; Sparks; Testing; Electron guns; electron sources; pulse generation; pulse power systems;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2004.835479
