Electric Field Optimization of High-Voltage Vacuum Feedthroughs

Abstract

We report on the optimization of high voltage vacuum feedthroughs meant to minimize the electric field on the vacuum side of the device. We find that commercial feedthroughs generally have center conductor diameters which are too small, resulting in unnecessarily large fields. We study the problem with analytical calculations and finite element analysis, and present a simple, optimized retrofit for the commercial feedthroughs studied here, without compromising their outgassing properties. This work is important for applications whereby the ``vacuum side'' of the feedthrough is, in fact, filled with a dielectric which may not have the voltage rigidity of vacuum.