Chemical shift measurements of chlorine K X-ray spectra using a high-resolution PIXE system

Abstract

A high-efficiency high-resolution wavelength-dispersive spectrograph with a von-Hamos configuration was developed for chemical state identification of elements in environmental samples using PIXE analysis. To evaluate the performance of this system, chlorine K X-ray spectra for NaCl, NH4Cl and polyvinylchloride (PVC) targets were measured and compared. Also, to study the applicability to environmental mixed samples, mixtures of NaCl and NH4Cl with different mixing ratios were measured. Through observation of Cl Kα1 X-ray from NaCl, the energy resolution of the system was determined to be 1.1eV. For the NaCl sample, a Kβx line was observed at an energy, which is higher than that of the Kβ main peak by 2eV, whereas no Kβx emission was observed for the NH4Cl sample. The chemical shift of the Kβ main peak for PVC relative to that for NaCl was about 1.2eV. For NaCl–NH4Cl mixture targets, the relative intensity of Kβx satellite to the Kβ main line provided an indication of mixing ratio. Energies and relative intensity of Cl Kβ X-ray satellites for NaCl and NH4Cl samples calculated by a simple molecular-orbital method agreed only qualitatively with the experimental results.