Photoionization of Rb2+ ions in the valence energy region 37 eV -- 44 eV

Abstract

Absolute photoionization cross sections for the Rb2+ ion were recently measured at high resolution over the energy range 37.31 eV -- 44.08~eV, with autoionizing Rydberg resonance series identified, using the photon-ion merged-beam setup at the Advanced Light Source (als) in Berkeley (Macaluso D A et. al. J. Phys. B: At. Mol. Opt. Phys. 49 (2016) 235002; 50 (2017) 119501). Detailed photon-energy scans taken at 13.5 2.5 meV bandwidth illustrated multiple Rydberg resonance series associated with the ground and metastable states. Here we present theoretical cross section results obtained using the Dirac-Coulomb R-matrix approximation with a detailed analysis of the resonances. The calculations were performed for the 3d104s2 4p5 \; 2 PoJ, J=32 ground state and the corresponding 3d104s2 4p5 \; 2 PoJ, J=12 metastable level. Results from the large-scale calculations are benchmarked against the als high-resolution measurements and reproduce the dominant resonance features in the spectra, providing confidence in the theoretical work for astrophysical applications.