Separated projectile and targetK x-ray production in symmetric heavy ion collisions as a function of the target thickness

Abstract

Cross sections for projectile and targetK x-ray emission have been measured as a function of the target thickness for the symmetric systems Ni-Ni, Cu-Cu, Nb-Nb, Ag-Ag at energies between 75 and 105 MeV. The projectileK x-rays were separated from the target ones by using the Doppler shift. Kα and Kβ energy shifts and Kβ to Kα intensity ratios were also determined and used to calculateM- andL-ionization and the correspondingK-fluorescence yield for both collision partners. At non vanishing small target thicknesses, the targetK-vacancy production cross section is generally larger than that of the projectile. By analysing the target thickness dependence of the cross sections with a two component model which takes also into account the evolution of the projectileM-,L- andK-shell population inside the solid, targetK-vacancy sharing and cross sections forKK electron capture in symmetric systems could be determined. These results are in good agreement with molecular orbital model predictions.