Simulation of experimental investigations of X-ray spectral path lengths on Iskra-5 laser facility

Abstract

We describe an improved Slater average-ion model employed in the numerical-theoretical analysis of experimental data, which were obtained in the investigation of X-ray spectral path lengths performed on the Iskra-5 laser facility at the All-Russian Scientific Research Institute of Experimental Physics(VNIIEF). The proposed model permits determining the spectral characteristics of the X-ray radiation with an accuracy of a few electronvolts. We outline the results of simulations of experiments with X-ray radiation-heated aluminium and germanium specimens of initial thickness of ∼0.1 mm, in which absorption lines arising from 1s—2p transitions in Al and the absorption band arising from 2p—3d transitions in Ge were recorded.