Abstract
Ion charge-state distributions have been measured with high time resolution for short (20 /spl mu/s) and long (250 /spl mu/s) vacuum discharges of 300 A. Charge-state data for 3 /spl mu/s after discharge ignition and quasi-steady-state values are given for most conductive elements in a Periodic Table, including data for a few elements (rhodium, europium, and terbium) that were never before reported in the literature. Ion charge states are significantly higher at the beginning of the discharge and decay to their quasi-steady-state arc plasma values. It was found that the mean ion charge states can be fitted by functions of the form Q~=Q~/sub t/spl rarr//spl infin// [1+A exp(-t//spl tau/)] where A is an enhancement function that depends on the power density. For the present conditions, A/spl sim/1 and /spl tau//spl sim/50 /spl mu/s.
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