Effects of sampler-skimmer separation in inductively coupled plasma-mass spectrometry

The effects of varying the sampler-skimmer spacing in an inductively coupled plasma-mass spectrometer are illustrated. The signals for a number of species were monitored including background ions (ArN⁺, ArO⁺, ArOH⁺, Ar₂⁺, Ar₂H⁺), background continuum, analyte ions (Cu⁺, Ce⁺, La⁺), analyte oxide ions (CeO⁺, LaO⁺), and matrix induced ions (ArNa⁺). As the sampler-skimmer spacing is increased over that normally used, the signal for some species decreases in intensity while the signal for others increases in intensity. There is a wide range of differential behavior and in some cases the signal changes are quite dramatic.

In addition to presenting results for an Ar plasma, measurements are also presented for a N₂-Ar mixed gas plasma. For some species, the signal changes observed when the sampler-skimmer spacing is increased are quite different with the N₂-Ar mixed gas plasma than with the Ar plasma and are, in some cases, opposite to signal changes observed with the Ar plasma. It appears that a larger sampler-skimmer spacing is more appropriate for a N₂ mixed gas plasma than the spacing normally used for a pure Ar plasma. Finally the effect of sampler-skimmer spacing on matrix effects is presented and it appears that matrix effects are not induced in the zone between the sampler and the skimmer.