Water-dielectric-breakdown relation for the design of large-area multimegavolt pulsed-power systems

Abstract

We have developed an empirical electrical-breakdown relation that can be used to design large-area water-insulated pulsed-power systems. Such systems often form an integral part of multiterawatt pulsed-power accelerators, and may be incorporated in future petawatt-class machines. We find that complete dielectric failure is likely to occur in water between a significantly field-enhanced anode and a less-enhanced cathode when Epτeff0.330±0. 026=0.135±0.009. In this expression Ep≡Vp/d is the peak value in time of the spatially averaged electric field between the anode and cathode (in MV/cm), Vp is the peak voltage across the electrodes, d is the distance between the anode and cathode, and τeff is the temporal width (in μs) of the voltage pulse at 63% of peak. This relation is based on 25 measurements for which 1≤Vp≤4.10 MV, 1.25≤d≤22 cm, and 0.011≤τeff≤0.6 μs. The normalized standard deviation of the differences between these measurements and the associated predictions of the relation is 12%. © 2006 The American Physical Society.