Modified perveance law for neutral-beam ion sources

Abstract

The perveance law for ion sources is modified based on experimental data gained during the conditioning phase of three multiaperture ion sources for neutral‐beam injection into TEXTOR. The ion sources are modified JET PINIs with a three‐grid accel‐decel extraction system designed for 55 kV, 88 A, 4.8 MW, operated in hydrogen. Results show that best agreement of the perveance law with the experimental data is achieved when the measured ion species mixture is used and, additionally, when the total width of the first acceleration gap, usually determined by the geometrical distance d₁ between grid 1 and grid 2 and thickness D₁ of grid 1, is enlarged by a third distance term r₂, taking the effect of distortion of the electrical field lines at the decel grid into account. At perveance matched conditions, i.e., minimum beam divergence, the optimum value is found to be r^’₂ =0.8r₂, where r₂ is the aperture radius of the decel grid. The species fractions were measured by optical and magnetic spectrometry.