The Z4 scaled radiative transition probabilities Adi (s−1) for the 2snp 1, 3P1 → 2s22p61S0 (6 ≤ n ≤ 13) transition and Auger branch ratios Ba of different states of Fe16+, Kr26+ and Xe44+, as a function of the principal number n

Figure 3. The Z4 scaled radiative transition probabilities Adi (s−1) for the 2snp 1, 3P1 → 2s22p61S0 (6 ≤ n ≤ 13) transition and Auger branch ratios Ba of different states of Fe16+, Kr26+ and Xe44+, as a function of the principal number n.

Abstract

Photoionization (PI) cross sections of the ground state 1s2 2s2 2p61 S0 of Ne-like Ar8+, Fe16+, Kr26+ and Xe44+ ions are calculated by using the Dirac atomic R-matrix code based on a fully relativistic R-matrix method. To analyze the detailed resonant structure, systematical calculations based on the multiconfiguration Dirac–Fock method are performed for the dominant 2s → np resonant transitions, and the resonant energies, strengths and total natural widths are presented. The resonant structures and characteristics of the PI cross sections and resonance strengths along the Ne-like sequence are discussed with emphasis on the influence of relativistic effects. For the Ar8+ ion, good agreement is found between the present results and available theoretical calculations and experimental data.