Abstract
In experiments conducted at Sandia National Laboratories' RITS-6 accelerator, the self-magnetic-pinch diode exhibits significant shot-to-shot variability. Specifically, for identical hardware operated at the same voltage, some shots exhibit a catastrophic drop in diode impedance. A study is underway to identify sources of shot-to-shot variations which correlate with diode impedance collapse. The scope of this report is limited to data collected at 4.5-MV peak voltage and sources of variability which occur away from the diode, such as sheath electron emission and trajectories, variations in pulsed power, load and transmission line alignment, and different field shapers. We find no changes in the transmission line hardware, alignment, or hardware preparation methods which correlate with impedance collapse. However, in classifying good versus poor shots, we find that there is not a continuous spectrum of diode impedance behavior but that the good and poor shots can be grouped into two distinct impedance profiles. In poor shots, the sheath current in the load region falls from 16%--30% of the total current to less than 10%. This result will form the basis of a follow-up study focusing on the variability resulting from diode physics.
Highlights
Radiation pulse reproducibility is critically important for the radiographic sources under development at Sandia National Laboratories
A diode geometry is labeled by the needle diameter and AK gap width, such that a 7-mm-diameter cathode fielded with a 7-mm AK gap width is a 7-7 shot
To address the first two items above, we investigate the possibility of shot-to-shot variations in the electron emission along the magnetically insulated transmission line (MITL)
Summary
Radiation pulse reproducibility is critically important for the radiographic sources under development at Sandia National Laboratories. Variations in SMP diode performance occur in spot size, radiation pulse width, and impedance lifetime In normal operation, this diode has a decreasing impedance related to anode plasma expansion [10]. Possible sources of variation between shots with identical hardware and geometry include (i) sheath electron emission and trajectories, (ii) variations in pulsed power, (iii) dustbin and transmission line misalignment, (iv) different field shapers, (v) diode misalignment, (vi) nonuniform electron emission from the cathode needle, (vii) nonuniform emission from the faceplate, and (viii) an unidentified plasma-induced impedance collapse mechanisms. The anode currents in the MITL are compared for 99 shots to determine if poor diode performance is correlated with peak injected power or pulse rise. The theory is well-matched to data, which exhibit the expected scaling with cathode and AK gap size
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