# Photoionization of Rb$^{2+}$ ions in the valence energy region 37 eV --   44 eV

**Authors:** Brendan M McLaughlin, James F Babb

arXiv: 1904.10770 · 2019-06-05

## TL;DR

This study combines high-resolution experimental measurements and advanced theoretical calculations to analyze the photoionization cross sections of Rb$^{2+}$ ions, identifying resonance series relevant for astrophysical modeling.

## Contribution

The paper presents the first detailed Dirac-Coulomb R-matrix calculations that accurately reproduce high-resolution experimental photoionization spectra of Rb$^{2+}$ ions.

## Key findings

- Theoretical results match experimental resonance features.
- Resonance series associated with ground and metastable states identified.
- Benchmarking supports astrophysical applications.

## Abstract

Absolute photoionization cross sections for the Rb$^{2+}$ 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 (\textsc{als}) in Berkeley {(Macaluso D A et. al. J. Phys. B: At. Mol. Opt. Phys. {\bf 49} (2016) 235002; {\bf 50} (2017) 119501)}. Detailed photon-energy scans taken at 13.5 $\pm$ 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 $3d^{10}4s^2 4p^5 \; {^2}{\rm P^o}_{J}$, $J=\frac{3}{2}$ ground state and the corresponding $3d^{10}4s^2 4p^5 \; {^2}{\rm P^o}_{J}$, $J=\frac{1}{2}$ metastable level. Results from the large-scale calculations are benchmarked against the \textsc{als} high-resolution measurements and reproduce the dominant resonance features in the spectra, providing confidence in the theoretical work for astrophysical applications.

## Full text

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## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/1904.10770/full.md

## References

67 references — full list in the complete paper: https://tomesphere.com/paper/1904.10770/full.md

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Source: https://tomesphere.com/paper/1904.10770