Energy dispersive x-ray fluorescence analysis of thin and intermediate environmental samples

The beneÐts of using energy-dispersive X-ray Ñuorescence analysis (EDXRF) for geochemical mapping projects are described. Thick pellets of geochemical samples, soil and sediment were measured in a secondary target excitation EDXRF system, using Mn and Mo secondary targets for excitation of low-and m

Performance characteristics of a microstrip gas counter operated as an x-ray Ñuorescence spectrometer are reported. Gas ampliÐcation as a function of microstrip anode-cathode voltage was measured, and the breakdown threshold voltage was determined in pure xenon. The detector temporal stability and t

Energy-dispersive x-ray Ñuorescence in combination with partial least-squares regression (PLSR) was used to determine nickel, copper and arsenic in aqueous solutions. Di †erent spectrum pre-processing methods (square root and logarithmic transformation and top hat Ðltering) were used prior to the PL

We have developed a rapid, nondestructive technique using energy-dispersive X-ray fluorescence spectroscopy to determine trace element concentrations in samples of archaeological felsite. The method employs a series of secondary targets that are selected to provide optimal sensitivity to groups of e

A bench-top energy-dispersive x-ray fluorescence instrument equipped with a low-power x-ray tube and a gas-filled proportional counter was used to determine CaO, SiO 2 , SO 3 , Al 2 O 3 and Fe 2 O 3 in cement. Spectrum evaluation and quantitative analysis were performed using partial least-squares (