DOI: 10.3390/en19133043 ISSN: 1996-1073

Electrode Erosion and Prefire Studies Towards Fusion Scale Pulsed Power

Luke Boswell, Raimi Clark, Jacob Stephens, John Mankowski, James Dickens, Adam Steiner, Max Flynn, Andreas Neuber

This study presents a comprehensive investigation of electrode erosion and discharge behavior in spark gap switches over long switching cycle lifetimes. Brass, copper–tungsten (CuW), and stainless steel electrodes are tested under controlled conditions to quantify material degradation, debris accumulation, and changes in breakdown voltage. High-resolution imaging and statistical analysis of spark channel locations and gap breakdown voltages reveal how surface evolution influences long-term performance and reliability. These results provide essential data for lifetime modeling and inform design strategies for pulsed power systems in emerging applications such as private sector fusion energy and large-scale facilities like Sandia’s Z Machine and proposed ZX upgrades, where high repetition reliability and predictable behavior are critical.

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