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Absolute single-photoionization cross sections of Se2+: Experiment and theory

  • Author(s): Macaluso, DA
  • Aguilar, A
  • Kilcoyne, ALD
  • Red, EC
  • Bilodeau, RC
  • Phaneuf, RA
  • Sterling, NC
  • McLaughlin, BM
  • et al.

Published Web Location

https://journals.aps.org/pra/abstract/10.1103/PhysRevA.92.063424
No data is associated with this publication.
Abstract

© 2015 American Physical Society. Absolute single-photoionization cross-section measurements for Se2+ ions were performed at the Advanced Light Source at Lawrence Berkeley National Laboratory using the merged-beams photo-ion technique. Measurements were made at a photon energy resolution of 24±3 meV in the photon energy range 23.5-42.5 eV, spanning the ground state and low-lying metastable state ionization thresholds. To clearly resolve the resonant structure near the ground-state threshold, high-resolution measurements were made from 30.0 to 31.9 eV at a photon energy resolution of 6.7±0.7 meV. Numerous resonance features observed in the experimental spectra are assigned and their energies and quantum defects tabulated. The high-resolution cross-section measurements are compared with large-scale, state-of-the-art theoretical cross-section calculations obtained from the Dirac Coulomb R-matrix method. Suitable agreement is obtained over the entire photon energy range investigated. These results are an experimental determination of the absolute photoionization cross section of doubly ionized selenium and include a detailed analysis of the photoionization resonance spectrum of this ion.

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