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Photoionization cross-sections of carbon-Like N+ near the K-Edge (390–440 eV)

Mosnier, Jean-Paul orcid logoORCID: 0000-0002-9312-1754, Kennedy, Eugene T. orcid logoORCID: 0000-0002-0710-5281, Bizau, J.-M., Cubaynes, Denis, Guilbaud, Ségolène, Blancard, Christophe and McLaughlin, Brendan M. orcid logoORCID: 0000-0002-5917-0763 (2021) Photoionization cross-sections of carbon-Like N+ near the K-Edge (390–440 eV). Atoms, 9 (27). ISSN 2218-2004

Abstract
: High-resolution K-shell photoionization cross-sections for the C-like atomic nitrogen ion (N+ ) are reported in the 398 eV (31.15 Å) to 450 eV (27.55 Å) energy (wavelength) range. The results were obtained from absolute ion-yield measurements using the SOLEIL synchrotron radiation facility for spectral bandpasses of 65 meV or 250 meV. In the photon energy region 398–403 eV, 1s −→ 2p autoionizing resonance states dominated the cross section spectrum. Analyses of the experimental profiles yielded resonance strengths and Auger widths. In the 415–440 eV photon region 1s −→ (1s2s22p2 4P) np and 1s −→ (1s2s22p2 2P)np resonances forming well-developed Rydberg series up n = 7 and n = 8 , respectively, were identified in both the single and double ionization spectra. Theoretical photoionization cross-section calculations, performed using the R-matrix plus pseudo-states (RMPS) method and the multiconfiguration Dirac-Fock (MCDF) approach were bench marked against these high-resolution experimental results. Comparison of the state-of-the-art theoretical work with the experimental studies allowed the identification of new resonance features. Resonance strengths, energies and Auger widths (where available) are compared quantitatively with the theoretical values. Contributions from excited metastable states of the N+ ions were carefully considered throughout
Metadata
Item Type:Article (Published)
Refereed:Yes
Uncontrolled Keywords:atomic data; inner-shell photoionization; atomic nitrogen ion
Subjects:Physical Sciences > Physics
DCU Faculties and Centres:DCU Faculties and Schools > Faculty of Science and Health > School of Physical Sciences
Research Institutes and Centres > National Centre for Plasma Science and Technology (NCPST)
Publisher:MDPI
Official URL:https://doi.org/
Copyright Information:© 2019 The Authors. Open access (CC-BY 4.0)
ID Code:27477
Deposited On:03 Aug 2022 14:35 by Thomas Murtagh . Last Modified 03 Aug 2022 14:35
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