The IR-RF alpha-Efficiency of K-feldspar

Infrared radiofluorescence (IR-RF) of K-feldspar is an alternative luminescence dating approach to infrared luminescence (IRSL). The application of IR-RF on coarse grain K-feldspar untreated with HF requires knowledge of the IR-RF alpha-efficiency. We present IR-RF alpha-efficiency measurements performed on four natural fine grain (4-11 mu m) K-feldspar samples and test whether the alpha-efficiency is similar to that reported for IRSL on poly mineral fine grain. The samples originate from Late and Middle Pleistocene aeolian sediment records in France and Germany. The fine grain fraction was obtained by crushing grains of diameter 90-200 mu m. The natural signal was reset by optical bleaching at 70 degrees C using a solar simulator. The alpha-irradiation was carried out on a home-made alpha-irradiator, equipped with a Am-241 source. For our irradiation setup, energy spectra were simulated using Geant4 to estimate the particle energy of the incident and exiting alpha-particles after passing a K-feldspar target. The alpha-flux induced IR-RF signals show a (super) linear dose-response up to 9.5 x 10(9) (integrated alpha-flux on the sample). The results indicate no significant difference between the IR-RF alpha-efficiency of the four samples. An averaged central S-alpha-value of 9.26 +/- 1.62 mu Gy/(10(3) alpha cm(-2)) (corresponding alpha-value: 0.067 +/- 0.012) was obtained from 84 measurements of all four samples. Our results are similar to alpha-values reported for IRSL on polymineral fine grain. We finally discuss how the central S-alpha-value can be applied to calculate the beta-equivalent alpha-dose rate of coarse grain mineral extracts.