A study of DC electrical breakdown in liquid helium through analysis of the empirical breakdown field distributions

Phan, N. S.; Wei, W.; Beaumont, B.; Bouman, N.; Clayton, S. M.; Currie, S. A.; Ito, T. M.; Ramsey, J. C.; Seidel, G. M.

doi:10.48550/arxiv.2011.08844

Cited by 1 publication

(1 citation statement)

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“…The effective area of the Ra EDM electrode is 200 mm 2 , approximately a factor of thirty larger. There is evidence that larger stressed areas are prone to lower breakdown voltages, suggesting that a miniaturized Ra EDM electrode geometry could improve the maximum stable electric field [29].…”

Section: Consideration Of Materials For New Electrodesmentioning

confidence: 99%

Surface Processing and Discharge-Conditioning of High Voltage Electrodes for the Ra EDM Experiment

Ready,

Arrowsmith-Kron,

Bailey

et al. 2021

Preprint

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The Ra EDM experiment uses a pair of high voltage electrodes to measure the atomic electric dipole moment of 225 Ra. We use identical, plane-parallel electrodes with a primary high gradient surface of 200 mm 2 to generate reversible DC electric fields. Our statistical sensitivity is linearly proportional to the electric field strength in the electrode gap. We adapted surface decontamination and processing techniques from accelerator physics literature to chemical polish and clean a suite of newly fabricated large-grain niobium and grade-2 titanium electrodes. Three pairs of niobium electrodes and one pair of titanium electrodes were discharge-conditioned with a custom high voltage test station at electric field strengths as high as +52.5 kV/mm and −51.5 kV/mm over electrode gap sizes ranging from 0.4 mm to 2.5 mm. One pair of large-grain niobium electrodes was discharge-conditioned and validated to operate at ±20 kV/mm with steady-state leakage current ≤ 25 pA (1σ) and a polarity-averaged 98 ± 19 discharges per hour. These electrodes were installed in the Ra EDM experimental apparatus, replacing a copper electrode pair, and were revalidated to ±20 kV/mm. The niobium electrodes perform at an electric field strength 3.1 times larger than the legacy copper electrodes and are ultimately limited by the maximum output of our 30 kV bipolar power supply.

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Section: Consideration Of Materials For New Electrodesmentioning

confidence: 99%